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Transcript of Rhinoplasty • Dissection Manual · A further striking exampleof conservatism is the preservation...
• Rhinoplasty • Dissection Manual
DEAN M. TORIUMI • DANIEL G. BECKER . e;t
~ L1PPINCOTf WILLIAMS & WILKINS
Rhinoplasty Dissection Manual
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Rhinoplasty Dissection Manual
Dean M. Toriumi, M.D. Associate Professor
Division of Facial Plastic and Reconstructive Surgery Departm ent of Otolaryngology-Head and Neck Surgery
University of Illinois at Chicago
Daniel G. Becker, M.D. Assistant Professor
Division ofFacial Plastic and Reconstructive Surgery Departm ent of Otolaryngology-Head and Neck Surgery
University of Pennsylvania
Illustrated by Devin M. Cunning, M.D.
4~ LIpPINCOTT WILLIAMS & WILKINS • A Wolters Kluwer Company
Philadelphia • Baltim ore • New York • London Buenos Ai res • Hong Kong • Sydney · Tokyo
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Acquisitions Editor: Danette Knopp Developmental Editor: Sara Lau ber Production Editor: Patri ck Carr Manufacturing Manag er: Tim Reynolds Cover Designer: Christine Jenn y Compositor: Maryland Co mposi tion Printer: Couri er Westford
© 1999 by LIPPINCOTT WILLIAMS & WILKINS 227 East Wa shington Square Philadelphia, PA 19106-3780 USA LWW.com
All rights reserved. This book is protec ted by copyright. No part of this book may be reproduced in any form or by any means, includ ing photocopying, or utiliz ed by any information storage and retrieval system without written permission from the copyright owner, except for brief quotat ions embodied in cri tica l article s and reviews . Material s appearin g in this book prepared by individuals as part of their of ficial duties as U.S. government employees are not covered by the above-me ntioned copyright.
Illust rations © Dani el G. Becker. Photograph s © Dean M. Toriumi.
Printed in the United States of America
Library of Congress Cataloging-in-Publication Data
Toriurni, Dean M. Rhinopla sty dissection manu al/Dean M. Toriumi, Danie l G. Bec ker ;
illustrated by Devin M . Cu nning. p. em,
Includes bibliographical references and index. ISBN 0-7817 -1783-3 I . Rhinoplasty Handbooks, manu als, etc. 2. Nose-Surgery
Handb ooks, manuals, etc. I. Becker, Daniel G. II. Title. [DNLM: 1. Rhinopla sty-methods Handbooks. WV 39 T683 r 1999]
RDII9.5.N67T67 1999 617.5' 230592---dc2 1 DNLMIDLC for Library of Congress 99-260 58
CIP
Care has been take n to confirm the accuracy of the information pre sented and to descri be generally accepted practices. However, the authors, ed itors, and publisher are not responsible for errors or omis sions or for any consequences from application of the information in this book and make no warranty, expresse d or impli ed, with respect to the currency , completeness, or accura cy of the contents of the publication. Appli cation of this information in a particular situation rem ains the professional respon sibility of the practitioner.
The authors , editors, and publisher have exerted every effort to ensure that drug selection and dosage set forth in this text are in accordance with current recommendations and practice at the time of publ ication . Howe ver, in view of ongoing research, changes in govern ment regul ation s, and the con stant flow of inform ation relat ing to dru g therapy and drug reaction s, the reader is urged to check the package insert for each drug for any change in indic ation s and dosage and for added warn ings and preca utions. Thi s is particularly importan t when the recomm ended agent is a new or infrequently employed drug.
Some drugs and med ical devices presented in this publication have Food and Drug Administration (FDA) clearance for limited use in restricted rese arch settings. It is the resp onsibil ity of the health care provider to asce rtain the FDA status of each dru g or device planned for use in their clinical practice.
10 9 8 7 6 5 4 3 2
To my ever supportive wife, Colleen, and our two daughters, Hannah and Olivia, and to my parents who gave me encouragement to practice medicine.
Dean M. Toriumi, M.D.
With special appreciation and love for my family-my parent s Bill and Merle, and my brothers and sisters-in-law, Richard and Rachel, Paul, Sam, and Jen.
Daniel G. Becker, M.D.
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Contents
Foreword . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xi Preface xiii Acknowledgments xv
Chapter 1: Anatomy . 1
Chapter 2: Rhinoplasty Analysis . 9 Landmarks for Analysis . 9 Lab Exercise: Nasal Analysis . 11 Surface Angles, Planes, and Measurements-Definitions . 12 Rhinoplasty Analysis . 16
Chapter 3: Injection . 25 Infiltrative Anesthesia Technique . 25
Chapter 4: Septoplasty . 31 Nasal Dissection: Septoplasty with
Cartilage Harvest . 31
Chapter 5: Incisions and Approaches . 37 Transcartilaginous or Cartilage-Splitting
Approach . 37 Delivery Approach . 40 The External (Open) Rhinoplasty Approach . 43
Chapter 6: Removal of Bony-Cartilaginous Hump . 59
: Osteotomies . 67Chapter 7Medial Osteotomies . 67
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viii CONTENTS
Chapter 8:
Chapter 9:
Chapter 10:
Chapter 11:
Chapter 12:
Chapter 13:
Appendix A: Appendix B: Appendix C: Appendix D:
Appendix E Appendix F: Appendix G: Appendix H: Appendix I: Appendix J: Appendix K:
Lateral Osteotomies and Infracture 67 Intermediate Osteotomies 68
Spreader Grafts 71
Surgery of the Tip 81 Exercises 81
Alar Base Resection 113 Internal Nostril Floor Reduction 113 Wedge Excision of Nostril Floor and Sill . .. 114 Alar Wedge Excision 114 Sliding Alar Flap 114
Other Maneuvers . . . . . . . . . . . . . . . . . . . . . .. 117 Plumping Grafts 117 Caudal Extension Grafts 118 Deviated Caudal Septum 122 Rib Cartilage Graft Reconstruction of
Saddle Deformity 130
Harvest of Autogenous Tissue 139 Harvesting Conchal Cartilage 139 Harvesting Ethmoid Bone 143 Harvesting Rib Graft 143 Harvesting Calvarial Bone 144
Incision Closure, Nasal Splint, Post-Operative Considerations 149 Closure of Midcolumellar Incision 149 Closure of the Marginal, Intercartilaginous,
or Transcartilaginous Incision 152 Placement of Intranasal Packs, Nasal
Splint 152 Postoperative Care 152
Tripod Concept 155 Guide to Nasal Analysis 156 Aesthetic Analysis 157 Surface Angles, Planes, and Measurement: Definitions 158 Tip Support, Incision, and Approaches 160 Achieving Surgical Goals: Selected Options . . 161 Selected Complications of Rhinoplasty 163 Adjunctive Procedures 165 Cleft Lip Nasal Deformity 167 Photography Setup 169 Indications for External Rhinoplasty Approach 170
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Contents ix
Appendix L:
Appendix M:
Suggested Surgical Instruments for Rhinoplasty List of Selected Companies with AddresseslPhone Numbers
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171
172 Appendix N: Selected Recommended Literature . 174
Index 177
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Foreword
Exce llent surgical outcomes in rhinoplasty derive from two interrelated fac tors: (1) a detailed understanding of the multiple nasal anatomic varian ts encountered, and (2) an acqui red knowledge of the ultimate long-term effects of surgical altera tions of these anatomic components-the evo lution of healing.
The first ski ll can be learned by detailed observation, enhanced by cadaver dissection; the second skill only by careful follow-up of operated patients over time.
The genera l concepts of nasal anatomy have been fun damentally clear for centuries , but on ly in recent decades have surgeons appreciated the fine ly detailed nuances of nasal anatomic dynamics that influence the surgical crea tion of a natural, plea sing rhinopl asty result, free of surgical stigmata. A detailed com prehension of nasal anatomy must therefore transcend knowledge of basic anatomic relationships. The surgeo n must j udge , by inspection and palpation, the character of the skin and subcutaneous tissues as they vary from nasal region to region, the influences of faci al mimetic musculature, the relative strength and support of the carti laginous and bony framework and substruct ure, and the limitations imposed by the interr elation ship of all these struc tures upon the ultimate favorable result. As important as the eva luation of what can reasonably be accomplished during rhinoplasty is the acqui red kno wledge and ski ll to assess what canno t be acco mplished.
This ju dgment is largely pre dicated on the critical ana lysis of each pat ient's individual anatomy, coupled with technical refinements guided by experie nce, and generally requires years of personal surgic al result evaluation to beco me keen.
In this dissection manu al, Drs. Becker and Toriumi have created a unique study guide and cadaver dissection manual dedicated to guiding the learn er in a disciplined manner. They admirably ex tend the tradit ion of the Universi ty of Illinois Departm ent of Otolaryngology's leadership in teaching anatomy and surgery in rhin oplasty. Cadaver dissection cons titutes a privil ege not available to all, and, as such, this precious material must be wise ly and conserva tive ly approached . Experie nce teaches that a discipl ined, structured approach to dissecti on of the nose pro duces the best educational outcome .
An important favorable develop ment in cont empo rary rhinoplasty is the appropria te concern for conservative and subtle anatomic changes that by definition derives from a preservativ e attitude toward nasal tissues. Commonly, rather than excisional sacrifice of large segments of cartilage or bone, a philosophy of preservation and restoration oftissues is deve loping that preclud es crea tion of unnecessary tissue voids which may heal and scar un
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xii FOREWORD
predictably. Wise surgeons recognize that even a larger nose, well balanced to the surrounding facial features, is always aesthetically preferable to a nose made over-small by radical surgery. Conservation surgery thereby further extends the surgeon's control over the final surgical result, as an appropriate equilibrium between the corrected nasal skeleton and soft tissue covering is more reliably achieved. Conservative sculpture and volume reduction of the alar cartilages clearly produce more favorable results, generally avoiding major resections and vertical interruprion of the intact residual strip of lateral and medial crus. Notching, pinching, alar cephalic retraction, over-rotation, and asymmetries are all almost entirely eliminated in long-term healing when this conservative philosophy is embraced . A further striking example of conservatism is the preservation of a strong , high profile in many patients, a distinct contrast to the dramatic retrousee pro files created in decades past by sacrifice of over-generous segments of nasal bony humps.
Finally, thoughtful nasal surgeons, through accurate anatomic diagnosis , discern which portions of the nasal anatomy are pleasing and satisfactory, striving to avoid disturbing these structures and areas when correcting (or gaining access to) anatomic components in need of correction. This philosophy further extends the surgeon 's favorable control over ultimate healing. Thoughtful cadaver dissection provides the learner with visual pathways to gain access to structures to be modified, while preserving normal tissues and relationships. Important tissue planes, vital in live surgery, can be appreciated best when viewed at leisure in the dissection laboratory.
This well-conceived work, properly employed, contributes substantially to shortening the steep learning curve characteristic of rhinoplasty.
M. Eugene Tardy, Jr., M.D., F.A.C.S. Profes sor of Clinical Otolaryngology Director, Division of Facial Plastic and
Reconstructive Surgery University of Illinois Medical Center Chicago, Illinois Professor of Clinical Otolaryngology Indiana University School of Medicine
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Preface
The successful rhinoplasty surgeo n' s operative plan is based on a clear understanding of the patient's desired changes, a careful and accurate diagnosis of the patient's anatomy , and a wide armamentarium of surgica l techniques. Prior techniques and the surgeon's personal experiences with the array of surgical techniques are also primary factors in the decision for a particular operative approach. The successful surgeon's applicatio n of surgica l techniques is designed to accom modate differences in anatomy and to account for varia nt anatomy. For example, noses with thin skin and noses with thick skin each present specific problems that must be considered when choosing techniques for altering nasal struc ture. Also, the effec ts of scar contracture vary from patient to patient and can significantly affec t the ultimate aesthetic and functional outcome . The rhinoplasty surgeon must recognize that the healing process may distort the changes made at the time of surgery, however expert ly they were accomplished. The surgeon's only recourse is to build a structurally sound nasal architecture that can withstand the force s of scar contracture and provide an acceptable success rate.
The importance of experience in rhinopl asty cannot be overemphasized. The experienced rhinoplasty surgeon can anticipate the likelihood of a favorable outcome based on his or her experience using certain techniqu es with a specific deformi ty. Selec tion of the proper technique for each circumsta nce should provide the opportunity for a high success rate.
The purpose of this dissec tion manual is to provide practical information about a wide range of surg ical techniques in rhinoplasty. The dissection manual guides the reader through a step-by-step dissection. It focuse s on the execution of basic and advanced rhinoplasty techniques and seeks to provide practical information that can be readily applied in surgery. The text is intended to be a procedurally oriented dissection manual and is organized to allow easy reference to a wide array of basic and advanced rhinoplasty techniques. Illustrations and intraoperative photographs, along with detailed text, guide the reader through the step-by-step dissection. Important techn ical and clinical "pearls" are highlighted in each section. A programmatic cadaver dissection videotape accompanies the text.
Before beginning the nasal dissection, review the chapter on nasal anatomy (Chapter 1) and the chapter on pre-operative rhinoplasty analysis (Chapter 2). Chapter 3 outlines local anesthesia injec tion techniqu es; the dissector is instructed to practice the injections prior to commenci ng the programmatic dissection.
The dissection manual guides you through the following dissections: septoplasty, trans/'
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xiv PREFACE
cart ilag inous or inter-cart ilaginous app roach , de livery approac h and an external rh inoplasty approach. The remainder of the programmatic nasal dissection detai ls a number of rhino plasty techniques and addresses a number of specific rhinoplasty pro blems. The manual focuses primarily on the external rhinoplasty approach; how ever, all approaches are covered and ca n be performed sequentially, or the dissector may choose to foc us on a specific approach. Appropriate targeted reference s for further reading are also provided .
We recommend that the diss ector proceed with Chapters 1- 6 with the skin-so ft tissue envelope intact. For the remaining chapters, the dissector may wish to split the ski n down the midl ine for better exposure. In this fashi on, the dissection can be performed withou t an assistant, and (except for a complete septopl asty) without a head light.
The cadav er laboratory is the plac e to sharpen one ' s sur gical skills. This manual seeks to provide the dissector with the opportunity to obtain maximum benefit from performing this complex opera tion on cadaver specimens. The di ssection manual was "field tested" at the Unive rsity of Pen nsylvan ia Rhinoplasty Co urse : Aesthetic & Fu nctional Rh inopl asty. Participants, many of whom professed relatively limited rhinoplasty experience, undertook the stepwise, programmatic dissection and worked through the manual (with the except ion of rib or clav arial bone harvest) in a single five-hour period.
Rhinopl asty is an operation that requ ires constant thou ght , assimilation of information, and reac tion to unexpected findings . With this in mind, the authors strongly recomme nd involve ment in as many advanced teaching encounters as possible . This may involve reading time ly literature, attending advanced rh inoplasty courses, observing other experienced surgeo ns, or sharpening one's skills in the cadaver laboratory. We hope that use of this dissection manual will stimulate thought and incite both the en thu siasm of the beginner as well as experienced rhinoplasty surgeons seeking to broaden their surg ical armamentariu m,
Dean M. Toriumi, M.D. Daniel G. Becker, M.D.
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Acknowledgments
We wish to thank the following frien ds, colleag ues, and mentors for their encouragement, support, and guidance .
Dr. M. Euge ne Tardy, Jr., has been an inspirational mentor and friend , whose advice and enco uragement were instrumental in this project ' s development.
Our mentors in Otolaryngology- Head & Neck Surgery and in Facial Plastic & Reconstructive Surgery are a continuing source of inspiration and guidanc e.
Depar tment Chairmen, Ed Appl ebaum at the University of Illinois at Chic ago, and David Kennedy at the University of Penn sylvania, deserv e spec ial thanks for supporting and facilitating this undertaking.
Devin M. Cunning deserves much appreciation. His medical illustrations speak for themselves, but do not tell of the countl ess hour s of collaboration, hard work, and multiple revisions.
Danette Knopp of Lippincott Williams & Wilkins provided publishing leadership from the very conception of the project to its completion.
Sara Lauber of Lippincott Willi ams & Wilkins played an instrumental role in guiding the manuscript through its fina l, critical stage.
Patrick Carr deserves thanks for his outstanding work as Production Editor.
Dean M. Toriumi, M.D. Daniel G. Becker, M.D.
xv
Rhinoplasty Dissection Manual
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1
Anatomy
Although the anatomy of the nose has been fundamentally understood for many years, only relatively recently has there been an increased understanding of the long-term effects of surgical changes on the function and appearance of the nose. A detailed understanding of nasal anatomy is critical for successful rhinoplasty. This chapter reviews the surface and structural anatomy of the nose, with an emphasis on important surgical anatomy.
Accurate assessment ofthe anatomic variations presented by a patient allows the surgeon to develop a rational and realistic surgical plan. Furthermore, recognizing variant or aberrant anatomy is critical to preventing functional compromise or untoward aesthetic results. This chapter presents a limited diagrammatic overview of nasal anatomy. More detailed study of nasal and facial anatomy is recommended (1) (Figs. 1-10).
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2 RHINOPLASTY DISSECTION MANUAL
4
Figure 1. Surface anatomy of the nose: Frontal view. 1, Figure 2. Surface anatomy of the nose: Base. 1, Infratip lobGlabella ; 2, nasion; 3, tip-defining points; 4, alar-sidewall ; 5, ule; 2, columella; 3, alar sidewall; 4, facet or soft-tissue triansupraalar crease; 6, philtrum. gle; 5, nostril sill; 6, columella-labial angle or junction; 7,
alar-facial groove or junct ion; 8, tip-def ining points .
Figure 3. Surface anatomy of the nose: Lateral. 1, Glabella; 2, nasion, nasofrontal angle; 3, rhinion (osseocartilaginous junction) ; 4, supratip ; 5, tip-defining points; 6, infratip lobule ; 7, columella; 8, columella-labial angle or junction; 9, alar-facial groove or junction .
Figure 4. Surface anatomy of the nose: Oblique. 1, Glabella; 2, nasion, nasofrontal angle; 3, rhinion; 4, alar sidewall; 5, alar-facial groove or junction; 6, supratip; 7, tip-defining points; 8, philtrum.
Figure 6. Nasal anatomy : Lateral (rotated slightly obliquely) . 1, Nasal bone; 2, nasion (nasofrontal suture line); 3, internasal suture line; 4, nasomaxillary suture line; 5, ascending process of maxilla; 6, rhinion (osseocartilaginous junction) ; 7, upper lateral cartilage; 8, caudal edge of upper lateral cartilage; 9, anterior septal angle; 10, lower lateral cartilage , lateral crus; 11, medial crural footplate; 12, intermediate crus; 13, sesamoid cartilage; 14, pyriform aperture.
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Figure 5. Nasal anatomy: Oblique. 1, Nasal bone; 2, nasion (nasofrontal suture line); 3, internasal suture line; 4, nasomaxillary suture line; 5, ascending process of maxilla; 6, rhinion (osseocartilag inous junction); 7, upper lateral cartilage; 8, caudal edge of upper lateral cartilage; 9, anterior septal angie; 10, lower lateral cartilage, lateral crus; 11, medial crural footplate ; 12, intermediate crus; 13, sesamoid cartilage; 14, pyriform aperture.
Figure 7. Nasal anatomy: Base. 1, Tip-defining point; 2, intermediate crus; 3, medial crus; 4, medial crural footplate; 5, caudal septum; 6, lateral crus; 7, naris; 8, nostril floor; 9, nostril sill; 10, alar lobule; 11, alar-facial groove or junction; 12, nasal spine.
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4 RHINOPLASTY DISSECTION MANUAL
Figure 8. Nasal septum. 1, Quadrangular cartilage; 2, nasal spine; 3, posterior septal angle; 4, middle septal angle; 5, anterior septal angle; 6, vomer; 7, perpendicular plate of ethmoid bone; 8, maxillary crest , maxillary component; 9, maxillary crest, palatine component.
Figure 9. Nasal musculature. A: Elevator muscles: 1, procerus; 2, levator labii alaequae nasi; 3, anomalous nasi. B: Depressor muscles: 4, alar nasal is; 5, depressor septi nasi. C: Compressor muscles: 6, transverse nasal is; 7, compressor narium minor. D: Minor dilator muscles : 8, dilator naris anterior . E: Other: 9, orbicularis oris; 10, corrugator.
B
2A Figure 10. Nasal vasculature. 1, Dorsal nasal artery; 2, lateral nasal artery; 3, angular vessels ; 4, columellar artery.
5 Anatomy
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Figure 10, continued.
PEARLS
o The nose may be thought of in anatomic thirds . The upper third roughly corresponds to the bony dorsum; the middle third roughly corresponds to the cartilaginous dorsum; and the lower third generally corresponds to the tip.
o When describing relationships of one structure to another in the nose, use the well. defined anterior/posterior or caudal/cephalic. (Fig. II) . .
o The nasal bones are usually small; the ascending process of the maxilla provides a significant contribution to the bony anatomy of the nose.
o The alar lobule contains fat and fibrous connective tissue, but it contains no cartilage. The lateral crus of the lower lateral cartilage takes on a more cephalic position as it extends laterally and is not found in the alar lobule.
o The lobule, alar lobule, and the infratip lobule are terms that designate three distinct anatomic areas of the nose. The lower third of the nose may be referred to as the lobule or tip. The alar lobule is a fibrofatty nasal subunit that is devoid of car- . tilage and composes a portion of the lateral nasal sidewall . The infratip lobule
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6 RHINOPLASTY DISSECTION MANUAL
PEARLS, continued
should comprise one third of the vertical length of the nose on base view (i.e., 2:1 columellar/lobule ratio).
• The nasal valve area includes the cross-sectional area described by the nasal valve" and is affected by the inferior turbinate; the caudal septum, and the tissues surrounding the pyriform aperture. The nasal valve proper is bounded by the nasal septum, the caudal margin of the upper lateral cartilage, and the floor of the nose, and is considered to be the location of the least cross-sectional area in the nose. In lateral osteotomies, care is taken to preserve a small triangle of bone at thepyriform aperture to prevent medialization of the inferior turbinate, which can corn
, promise the cross-sectional area of the nasal valve area. • Scroll region: The upper lateral cartilages and lower lateral cartilages interrelate
in three different configurations. Most commonly, the cephalic edge of the lower ~ lateral cartilage overlaps the caudal edge of the upper lateral cartilage in the scroll ' region. Less commonly, the cephalic edge of the lower lateral cartilage abuts the caudal edge of the upper lateral .cartilage. Rarely the cephalic edge of the lower lateral cartilage is overlapped by the caudal edge of the upper lateral cartilage. .
• Internasal suture line: The nasal bones are fused inthe mid\ine at the internasal suture. Whenelevating the skin-softtissue envelope, decussating fibers must be divided (typically with scissors) from their attachment at the midline internasai su- .' ture to achieve the desired exposure. '
• The caudal margin of the nasal septumhas a defined posterior septal angle, a middle septal angle, and an anterior septalangle. This anatomy plays a significant role in the shape of the nasal tip, including the infratip lobule, double-break, and supratip region . The surgeon attempting to create or allow for tip rotation by conservative excision of a superiorly based triangle of caudal septum must be aware of this anatomy, .', ' ,
• The septum is composed of contributions from a number of anatomic structures (see Fig . 8).
• In performing septoplasty, great care must be taken to preserve a generous L 'strut to maintain support for the lower two thirds of the nose. Generally, it is recom - ; mended that at least 15 mm caudally and 15 mm dorsally (after accounting for any ' removal of dorsal hump) be preserved.
• Rhinion versus sellion: The rhinion is the soft-tissue correlate of the osseocarti, laginous junction of the nasal dorsum. The sellion corresponds to the osseocarti
laginous junction ~f the nasal dorsum. ' .' ' ' . ' ,' . • Osteotomies should not extend into"the ha~d nasofront~l bone. When osteotomies , extend too far cephalically into this thick, hard bone, a rocker deformity may re
suit. In a rocker deformity, infracture of the bone may displace this excessive, ' cephalic portion laterally. .
• Vascular supply and lymphatics are found superficial to the nasal musculature (2). The soft-tissue layers in .the nose are epidermis, dermis,subcutaneous [this plane contains blood vessels and lymphatics; and also a (typically) thin layer of fat); muscle and fascia (musculoaponeurotic) plane, areolar tissue plane, and perichondrium/periosteum. Dissection during rhinoplasty in the proper tissue planes [areolar tissue plane (i.e ., submusculoaponeuroticj] preserves nasal blood supply and minimizes postoperative edema. ' . .
• The astute surgeon will be able to anticipate 'the contour of the upper and lower lateral cartilages by studying the surface topography of the nose.
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7 Anatomy
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Figure 11. Nasal relationships.
REFERENCES
1. Tardy ME, Brown R. Surgical anatomy of the nose. New York: Raven Press, 1990. 2. Toriu mi DM, Mueller RA, Grosch T, Bhattacharyya TK , Larrabee WF. Vascular anatomy of the nose and the
external rhinoplasty approach. Arch 0101Head Neck Surg 1996;122:24-34.
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2
Rhinoplasty Analysis
Development of an operative plan that will achieve the desired outcome requires an understanding of the patient' s wishes and selection of appropriate surgical maneuvers to effect the propo sed changes. The surgeon must be able to identify anatomic con straints that will limit the ability to change contour (thick skin, weak cartilages, etc.). Experi ence with rhinoplasty over time has shown that detailed anatomic analysis of the nose is an essentia l first step in achieving a successful outc ome. Failure to recognize a particular anatomic point preoperatively will often lead to a less than ideal long-term result.
After you have identified the various anatomic landmarks in Chapter 1, undertake a preoperative rhinoplasty analysis of your patient (cadaver specimen) . In this programmatic dissection, you will perform a number of incisions, approaches, and surgic al techniques, but it is also important to develop your skills in rhinoplasty analysis. Repe ated practice of rhinoplasty-analysis skills will improve your preoperative diagnostic abilit y. Therefore, in this exercise, determine what the best approach and techniques would be in your specimen. Follow the simplified rhinoplasty-analysis algorithm provided as you examine the face and nose.
Also provided is a more detailed description of terms and a more detailed review of rhinoplasty analysis.
LANDMARKS FOR ANALYSIS (FIG. 1) (Appendix C)
Points
Trichion: Anterior hairline in the midlin e Glabella: Most prominent midline point of forehead , well appreciated on lateral view Nasion: Most posterior midline point of forehead, typically corresponds to nasofrontal su
ture Rhinion: Soft-tissue correlate of osseocartilaginous junction of nasal dorsum Sellion: Osseocartilaginous junction of nasal dor sum Supratip: Point cephalic to the tip Tip: Ideally , most anteri orly projected aspect of the nose Subnasale: Junction of columella and upper lip
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10 RHINOPLASTY DISSECTION MANUAL
Figure 1. Nasal analysis: Landmarks.
Stomion
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~-"""--------",'----------.''---- Menton
~~~~~----~--Trichion
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. \I --'--------AAf-..-----I-- Supratip (~-+})--'\------I-f-.---\--TiP
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)~\=_----_/__---,I--- Labrale superius / ---- -
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Glabella 1----- Nasion
/L--jl'----,f.---_ Trichion
_ _ Rhinion
Supratip
( Tip
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Labrale Superius ..::::..~-- Stomion
1----- Mentolabial Sulcus
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Pogonion
Menton
B Cervical Point c
11 Rhinoplasty Analysis
Labrale superius: Border of upper lip Stomion: Central portion of interlabial gap
Stomion superius: Lowest point of upper-lip vermilion Stomion inferius: Highest point of lower-lip vermilion
Mentolabial sulcus: Most posterior midline point between lower lip and chin Pogonion: Most anterior midline soft-tissue point of chin Menton : Most inferior point on chin Cervical point: Point of intersection between line tangent to neck and line tangent to sub
mental region Gnathion: Point of intersection between line from subnasale to pogonion and line from cer
vical point to menton
LAB EXERCISE: NASAL ANALYSIS
General
Skin quality: Thin, medium, or thick Primary descriptor (i.e., why is the patient here): For example, "big," "twisted," "large
hump"
Frontal View
Twisted or straight: Follow brow-tip aesthetic lines Width: Narrow, wide, normal, "wide-narrow-wide" Tip: Deviated, bulbous, asymmetric, amorphous, other
Base View
Triangularity: Good versus trapezoidal Tip: Deviated, wide, bulbous, bifid, asymmetric Base: Wide, narrow , or normal. Inspect for caudal septal deflection Columella: ColumelJarllobule ratio (normal is 2:1 ratio); status of medial crural footplates.
Lateral View
Nasofrontal angle: Shallow or deep Nasal starting point: High or low Dorsum: Straight, concavity, or convexity; bony, bony-cartilaginous , or cartilaginous (i.e.,
is convexity primarily bony , cartilaginous, or both) Nasal length: Normal, short, long Tip projection: Normal, decreased, or increased Alar-columellar relationship: Normal or abnormal Naso-labial angle: Obtuse or acute
Oblique View
Does it add anything, or does it confirm the other views? Many other points of analysis can be made on each view, but these are some of the vital points of commentary.
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12 RHINOPLASTY DISSECTION MANUAL
SURFACE ANGLES, PLANES, AND MEASUREMENTS: DEFINITIONS (FIG. 2) (1-5) (Appendix D)
Facial thirds Upper third : Trichion to glabella Middle third: Glabella to subnasale Lower third: Subnasale to menton (Fig. 2A)
Horizontal fifths: Five equally divided vertical segments of the face (Fig. 2B) Frankfort plane: Plane defined by a line from the most superior point of auditory canal to
most inferior point of infraorbital rim (Fig. 2C) Nasofrontal angle : Angle defined by glabella-to-nasion line intersecting with nasion-to-tip
line. Normal, 115 to 130 degrees (within this range, more-obtuse angle more favorable in female , and more acute angle in male patients ; Fig. 2D)
Nasofacial angle : Angle defined by glabella-to-pogonion line intersecting with nasion-totip line . Normal, 30 to 40 degrees (Fig. 2E)
1/5 1/5 1/5 1/5 1/5
A
1/3
1/3
1/3
B
Figure 2. Surface angles, planes, and measurements. A: Horizontal facial thirds. B: Vertical facial fifths .
13 Rhinoplasty Analysis
c Figure 2, continued. C: Frankfort plane. D: Nasofrontal angle.
E
Figure 2, continued. E: Nasofac ial angle . F: Nasomental angle.
14 RHINOPLASTY DISSECTION MANUAL
G
Figure 2, continued. G: Relationship of lips to subnasale-to-pogonion line. H: Relationship of lips to nasomental line.
Figure 2, continued. I: Mentocervical angle. J: Legan's angle of facial convexity.
- --,
,I~
-, ~ l
15 Rhinoplasty Analysis
K
Figure 2, continued. K: Nasolabial angle. L: Nasal projection: method of Goode.
PEARL
Normal projection with a "3-4-5" triangle described by Crumley (see later) gives a riasofacial angle of 36 degrees .
Nasomental angle : Angle defined by nasion-to-tip line intersecting with tip-to-pogonion line. Normal , 120 to 132 degrees (Fig. 2F)
Relation ship of lips To nasomentalline: Upper lip, 4 mm behind; lower lip, 2 mm behind line from nasal tip
to menton (Fig. 2H) To subnasale-to-pogonion line: Upper lip, 3.5 mm anterior; lower lip, 2.2 mm anterio r
(Fig.2G) Mentocervical angle: Angle defined by glabella-to-pogonion line intersecting with men
ton-to-cervical point line (Fig. 21) Legan facial-con vexity angle: Angle defined by glabella-to -subnasale line intersecting
with subnasale-to-pogonion line; normal , 8 to 16 degree (Fig. 21)
PEARL
Useful in assessing chin deficiency, candidacy for chin implant, chin advancement, or other chin alteration
Nasolabial angle : Angle defined by columell ar point-to-subn asale line intersecting with subnasale-to-Iabrale superius line; normal , 90 to 120 degrees (within this range, more obtuse angle more favorable in female, and more acute in male patients; Fig . 2K)
Columell ar show: Alar-columellar relationship as noted on profile view; 2 to 4 mm of columell ar show is normal
16 RHINOPLASTY DISSECTION MANUAL
Nasal projection: Anterior protrusion of nasal tip from face (Fig. 2L) Goode's method : A line is drawn through the alar crease, perpendicular to the Frankfurt
plane. The length of a horizontal line drawn from the nasal tip to the alar line (alar point-to-nasal tip line) divided by the length of the nasion-to-nasal tip line . Normal, 0.55 to 0.60 (2,3)
Crumley's method: The nose with normal projection forms a 3-4-5 triangle [i.e., alar point-to-nasal tip line (3), alar point-to-nasion line (4), nasion-to-nasal tip line (5)] (4).
Byrd's method: Tip projection is two-thirds (0.67) the planned postoperative (or the ideal) nasal length . Ideal nasal length in this approach is two-thirds (0.67) the midfacial height (5)
POWELL AND HUMPHRIES "AESTHETIC TRIANGLE"
Nasofrontal: 115 to 130 degrees Nasofacial: 30 to 40 degrees Nasomental: 120 to 132 degrees Mentocervical: 80 to 95 degrees (3)
RHINOPLASTY ANALYSIS
A thorough physical examination and accurate preoperative anal ysis are critical to achieving the desired long-term postoperative rhinoplasty result. Some degree of mental organization assists in the execution of the physical examination. Visual examination and finger palpation are equally important in the nasal evaluation. Throughout the evaluation, a mental image of the potential outcome and surgical limitations inherent in every individual should be visualized. In effect, the potential rhinoplasty operation is rehearsed even as the physical examination proceeds (1,6).
Study of the standard preoperative photographic images for rhinoplasty (frontal , base, lateral, oblique) allows a systematic, detailed anatomic analysis that complements the physical examination process. Thi s chapter focuse s on analysis of the four standard rhinoplasty photographic views (frontal, base, lateral , oblique). Emphasis is placed on anatomic descriptions of structures and their relationships to other structures.
Analysis begins by examining all four view s and making an assessment of the overall stature of the patient , the facial skin quality , and the symmetry of the face . The principle of dividing the face into horizontal thirds and vertical fifths is a useful tool to obtain a general sense of any incongruent areas of the face that may playa key role in nasal appearance and the outcome of nasal surgery. It is essential that these incongruent areas or asymmetries be recognized and discussed with the patient. Thickness and quality of the facial skin-subcutaneous tissue complex must be determined, as it plays a critical role in dictating the limitations of what can and cannot be accompli shed with aesthetic nasal surgery (1,6,7).
After completing the general assessment, note and highlight the most striking characteristics of the nose. These are typically the characteristics that bring the patient for rhinoplasty , such as excessive size, deviation , or a dorsal hump. These primary patient concerns must be recognized, highlighted, and addres sed above all else.
As the surgeon reviews each photographic image, the major aesthetic and technical points that can be evaluated on a given view are noted first. Subtleties in analysis are then addressed. It is important to recognize both the characteristics of greatest concern to the patient and the more subtle findings. The patient may not notice these other subtle abnormalities if they are left unaddressed by the surgeon. Postoperatively, the scrutinizing patient may notice and point out these abnormalities . Stepwise, methodical analysis of the patient and the photographic views allows the well-trained surgeon to identify significant anatomic and aesthetic point s.
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17 Rhinoplasty Analysis
Frontal View
On frontal view, the observant surgeon first notes nasal width, any deviation from the midline , and characteristics of the nasal tip . Nasal width can be assessed in the upper, middle, and lower third of the nose. It is important to recognize that a saddle deformity of the bony or cartilaginous dorsum will contribute to the appearance of an overwide dorsum on front al view, whereas a hump will give the impression of a narrow dorsum. Simil arly, a low bony dorsum will create an illusion of a relatively wide upper third of the nose and wide intercanthal distance or pseudohypertelorisrn (7). This appearance can be significantly improved by augmenting the nasal dorsum . The width of the nasal base on frontal view should approximate the interc anthal distance.
The contour of the curved aesthetic lines that follow the eyebrows, traverse the radix, and continue down along the lateral nasal dorsum to end at the tip-defining points (the brow-tip aesth etic lines) should be followed , and any asymmetries, twists , or dev iation s noted. These brow-tip aesthetic lines should be smooth, unbroken , gentl y curved, and symmetric (1,6) .
The nasal tip should be characterized on frontal view with regard to symmetry and definition. Concavity or other anatomic findings of the alar sidewall are noted. Vertical and horizontal aspects of bulbosity should be recognized when present. Bifidity of the nasal tip may be visible on this view (but is typically best appreciated on base view) . The gentle "gull-in-flight" relationship of the nasal alae to the infratip lobule should be followed , and any asymmetry should be noted. Exaggeration of this curve is suggestive of alar retraction and/or a dependent infratip lobule. If the columella is not visible ("hidden columella") on frontal view, this also may indicate a retracted columella. The vertical position and symmetry of the alar insertions should be described on the front al view.
Base View
On base view, special attention should be given to triangularity, symmetry, columella/lobule ratio, and width and insertion of the alar base. The nasal base should be configured as an isosceles triangle with a gently rounded apex at the nasal tip and subtle flaring of the alar sidewalls (Fig . 3) (4,8,9). Poor triangularity or trapezoidal configuration with broad domal angles may suggest abnormal divergence of the intermediate crura . The presence of asymmetry of the tip may best be appreciated on this view. Often one can visualize the outline of
Figure 3. Nasal analysis : Base view. Give special attention to triangularity, symmetry , columellar/lobule ratio, and width and insertion of the alar base.
. - -. . . - - -
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! -:;-=-~
18 RHINOPLASTY DISSECTION MANUAL
the lower lateral cartilages beneath the thin skin of the columella and alar rim, and asymmetries or buckling can be noted . Overlong or short medial crura may be apparent; a wide columella and flaring of the medial crural footplates should be noted when present. One should look into the nasal vestibule to identify possible recurvature of the lateral aspect of the lower lateral cartilage (lateral crura), which on occasion contributes to nasal obstruction or correlates with an alar concavity seen on frontal view. This recurvature of the lateral crura can be accentuated with application of dome-binding sutures (transdomal sutures, etc .), resulting in nasal airway obstruction. The caudal septum may be seen protruding into a nostril. Asymmetric nostrils or protruding medial crural footplates may be a clue of subtle caudal septal deviation or asymmetry . Asymmetric orientation of the nostril apices may be indicative of underlying abnormalities of the domal region of the lower lateral cartilages.
The width of the alar base should be noted, with normal width generally being within a vertical line dropped from the medial canthi. Variations in the appearance of width on the base view may be due to the variation in horizontal position of the alar insertions on the face or in the flare of the alar sidewalls. The alar sidewalls themselves are characterized with regard to thickness and flare. Alar base insertions are described by degree of recurvature , with straight insertions going directly into the face (i.e., no nostril sill) , and extremely recurved alae inserting directly into the columella (4,8,9) .
The ratio of the columella to lobule should approximate a 2:1 ratio, and the beginning of the flare of the medial crural footplates should divide the alar base into halves. The nostrils are commonly oriented 30 to 45 degrees toward the midline and are pear-shaped and elongated. The facets or external soft-tissue triangles are attractive when they are well defined but can detract if they are overly conspicuous (4,8,9).
Lateral View
The lateral view offers important information on tip projection, nasal length, dorsal profile, and alar-columellar relationship.
The nasal tip should ideally project strongly from the the face and gracefully lead the supratip dorsum, creating a modest supratip break. An identifiable but not overly exaggerated columellar double break typically marks the junction of the medial and intermediate crus . Nasal tip projection is consistently assessed by using the method described by Goode (see Fig. 2) (2,3). If the length of a line drawn from the tip-defining point perpendicular to a tangent to the alar-facial junction is greater than 0.55 to 0.60 of the line drawn from the nasion to tip-defining point, then the nose may be overprojected. However, when assessing tip projection, relationships between the nose and other aesthetic facial features (chin projection, forehead contour, ethnic background, etc.) must be considered.
Nasal length is complicated to define. The nasal length is compared with the horizontal thirds of the face and the overall stature of the patient to determine whether the nose is of appropriate length. However, the factors contributing to the appearance of nasal length are complex. The nose can be considered to have three lengths, with nasion to tip being the centrallength , and nasion to alar margin being the lateral lengths. A short or long lateral length may reflect a retracted or hooded ala, respectively, whereas a ShOl1 or long central length may reflect an obtuse or acute nasolabial (columellar-labial) angle, respectively. Furthermore, a deep nasofrontal angle contributes to the illu sion of a short nose, and a shallow nasofrontal angle adds apparent length to the nose (10). In Fig . 4A, three diagrams identical except for the nasofrontal angle illustrate the effect of the nasofrontal angle on the appearance of nasal length. Another three diagrams (Fig. 4B), identical except for the nasolabial angle, illustrate the effect of the nasolabial angle on the appearance of length.
The nature of the columellar-labial confluence and columellar-lobular angle (double break) also must be assessed. Webbing or tenting of the columellar-labial confluence should be noted. An overly obtuse columellar- labial angle and/or an exaggerated double break will make the nose appear ShOI1, whereas the converse (acute columellar-labial angle and/or absent double break) will add apparent length. A posteriorly inclining lip or deficiency of the premaxilla may confound accurate measurement of the columellar-labial
19 Rhinoplasty Analysis
A,B c
D,E
Figure 4. A deep nasofrontal angle and/or an obtuse nasolabial angle contributes to the appearance of a short nose , whereas a shallow nasofrontal angle and/or an acute nasolabial angle adds appa rent length . In the first three line drawings (A) , the nasolabial angle is the same, whereas the nasofrontal angle is altered to illust rate the effect of the nasofrontal angie on the appearance of nasal length. In the next three drawings (B), the nasofrontal angle is constant , whereas the nasolabial angle var ies.
angle . The relationship of the nose to other facial structu res also will influen ce nasal length ; for example, a flat forehead will give the illusion of increased nasal length (l0).
Byrd (5) described a useful method for determining appropriate aesthetic proportions for tip projection, nasal length , and radix projection. "Ideal" nasal length is two thirds of the midfacial height and is equ al to chin vertical. Tip projection is ideall y two thirds of this planned or ideal nasal length. Radix projection may be measured from the junction of the nasal bones with the orbit and ideally should be one third of the calculated nasal length.
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20 RHINOPLASTY DISSECTION MANUAL
Byrd recommended the plane of the cornea surface as a preferred reference point for radix projection ; from this starting point, the radix projects 0.28 times the ideal nasal length. In Byrd's report , the radix projected 9 to 14 mrn from the plane of the cornea surface (5).
One should be famili ar with the aesthetic angles applied in facial analysis as general guidelines for standards of facial aesthetics and facial harmony. Powell and Humphri es aesthetic triangle (nasofacial, nasofrontal, nasomental, and mentocervical angles) and the nasolabial angle or confluence are a few of the more commonly cited measurements (3).
Assessment of the dorsal contour should identify any concavity, convexity, or irregularity. A high dorsum with a slight concavity at the rhinion is generall y considered the aesthetic ideal in the white female nose. A high dorsum that is straight or with a small hump is ideal in a white male nose. Other notable comp onents of the dorsum include the nasal start ing point , which is ideally positioned at the level of the superior palpebral fold, and the tip-supratip relationship, as previousl y mentioned.
The ala is analyzed in detail on the lateral view. Insertion of the ala on the face 2 to 3 mm above the columella in the horizontal plane, as described by Crumley (4), is judged to be normal. The contour of the alar rim in profile ideally approximates a "lazy S" shape: one should note if this is normal, exaggerated, or straight. The size of the alar lobule is classi ficd as small , normal , or large. The alar-columellar relationship should be precisely described. The range of normal columellar show is generally considered to be 2 to 4 mm. The complexities of the alar- columellar relationship were categorized by Gunter et al. (11), who identified abnormal positioning of the ala and the columella in relationship to a line drawn through the long axis of the nostril. All patient s have a hanging, normal , or retracted ala and a hangin g, normal , or retracted columella. Thus nine possible anatomic combinations make up the alar-eolumellar relati onship (Fig. 5).
On lateral view, the long axis ofthe nostril should rise at approx imately 10 to 30 degrees from a plane horizontal to the Frankfurt plane. This is a reliable determinant of the need for operative rotation of the nasal tip (7).
Oblique View
Although it offers the least amount of objective data, this is an important aesthet ic view because the nose is most often seen at oblique angles. Several aspects of nasal contour are highlighted on this view and should be assessed. The brow-tip aesthetic lines and the soft-tissue facets are especially prominent and should be carefull y assessed , as irregulariti es may be highlighted on this view. Furthermore, abnormalities of the lateral aspect of the nasal bones, nasal length , dorsal height, and tip projection also may be highlighted on the oblique view.
Overview
There is no "standard" rhinoplasty. Each operation is unique in that it must be tailored to the specific anatomic components involved and the desires of the patient. By developing a consistent, meticulous routine in which the patient' s nose is analyzed with regard to its anatomic components and their complex interrelationships, the surgeon can select the best incisions, approaches, and techniques to achieve the desired surgical outcome.
.,,,- '.PEARLS
• The soft-tissue point correlating to the osse~cartilaginous jtin~tion of the nasal . dorsum is the rhinion , The skin at this location is relatively thin compared with the
thicker skin of the nasion. This is importantto recognize when planning dorsal hump reduction. After hump reduction, this area must be very smooth to avoid visible or palpable irregularities (see Appendix G): .
• The nasal starting point typically corresponds to the nasion. In female patients, it is ideally situated at the same level as the superior palpebral fold. .
n _ .__ '~~ " ="
- . - ~
.t"~j
~ I~
Normal Retracted Hanging Columella Columella Columella
Normal Ala
-,
Retracted Ala
\
Hanging Ala
Figure 5. Nine possible anatomic combinations making up the alar-columellar relationship.
~~--
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, ~ -~-:;
22 RHINOPLASTY DISSECTION MANUAL
PEARLS, continued ·
• The nasaltipshouid be the most anteriorly projecting portion oftbe nose. The nasal tip should ideally lead the supratip dorsum, creating a modest supratip break . .
• A "pollybeak" is a postoperative situation in which the supratip leads the tip. Causes for a pollybeak include underresection of cartilaginous dorsum at the anterior septal angle, excessive scar tissue formation, and inadequate suppo~t of the tip, causing postoperative loss oftip projection. . ... . .. .
. . . . • An identifiable but not overly exaggerated columellar double break usually marks .
the junction of the medial and intermediate crus. . . • Nasal-tip projection may be consistently assessed by using the method described .
by Goode. If the length of a line drawn from the tip-defining point perpendicular to a tangent to the alar-facial junction is greater than 0.55 to 0.60 of the line drawri from the nasion to tip-defining point , then the nose may appear overprojected.
• Thickness and quality of the facial skin-subcutaneous tissue complex must be determined, as it plays a critical role in dictating the limitations of what can and cannot be accomplished with nasal surgery. .
• Thin skin, strong cartilages, and bifidity: an important anatomic triad. The surgeon . must recognize the need to approximate the tip-defining points to improve tiptri angularity. The surgeori must recognize the risk of bossa formation if excessive lateral crura is excised (see Appendix G). . . .
• Facial analysis can describe vertical facial thirds: trichion-to-glabella, glabella-tosubnasale, and subnasale-to-menton.However.the hairline is variable, and at times the glabella is not always precisely identifiable. Another method considers the lower two thirds of the face from the nasion to the menton. The.nasion-to-subriasale distance is 47% of the total, whereas subnasale to menton is53% (Fig. 6). . .
• The astute surgeon will be able to anticipate the contour of the lower lateral cartilages by studying surface topography of the nasal tip; . .
• The basal view provides information about the shape of the lower lateral cartilages. A trapezoidal nasal base indicates a wide domal angle and indicates the need for a tip technique that will create a more acute dome angle (dome-binding suture, etc.). . ·
• Cephalic positioning of the lateral crura is indicated by the "parenthesis" deformity and lack of lateral wall support.
• The "narrow nose syndrome" is noted in patients with a projecting nose, short nasal bones, and long upper lateral cartilages. These patients are at high risk for inferomedial collapse of the upper lateral cartilages after dorsal-hump excision. These patients frequently need spreader grafts. The contour of the caudal margin of the medial and •. intermediate crura canfrequently be assessed by close examination of the nasal base.
I'II ILLUSIONS IN RHINOPLAS.TY . . . .
• · .A dorsal convexity or hump frequently gives the appearance of narrowness on frontal view. It also provides the illusion of relative decreased projection. That is, changing the relationship between the dorsum and tip can improve the appearance . of projection. .. .
• • A low dorsum gives the appeai·ance of increased nasal width due to less shadow" ing along the lateral nasal wall.
• A saddle deformity of the bony or cartilaginous dorsum will contribute to the ap. pearance of an overwide dorsum on frontal view, whereas a hump will give the im
pression of a narrow dorsum. Similarly-a low dorsum will create an illusion ofa relatively wide upper third of the nose or pseudohypertelorism. This appearance can be significantly altered by augmeriting the nasal dorsum .
• A deep nasofrontal angle lends the appearance of a short nose, as does an obtuse nasolabial angle or an accentuated double break.
I
23 Rhinoplasty Analysis
47%
53%
Figure 6. Relationship of the lower two-thirds of the face.
REFERENCES
I. Tardy ME. Rhinoplasty: the art and the science. Philad elphia: WB Saunders, 1997. 2. Tardy ME, Walter MA, Patt BS. The overprojecting nose: anatomic component analysis and repair. Facial
Plast Surg 1993;9:306- 316. 3. Ridley MB. Aestheti c facial proportions. In: Papel ID, Nachlas NE, eds . Facial plastic and recons tructive
surgery. Philadelphia: Mosby Year Boo k, 1992:99-109. 4. Crumley RL, Lanser M. Quantitative analysis of nasal tip project ion. Laryngoscope 1998;98:202-208. 5. Byrd HS, Hobar Pc. Rhinoplasty: a practical guide for surgical planning. Plast Reconstr Surg 1993;91 :
642-656. 6. Tardy ME, Brown R. Surgical ana tomy ofthe nose. New York: Raven Press, 1990. 7. Johnson CM, Toriu rni DM. Open structure rhinoplasty. Philadelphia: Sau nders, 1990. 8. Ta rdy ME, Pan BS, Walter MA. Alar reduction and sculpture: anatomic concepts. Facial Plast Surg 1993;9 :
295-305. 9. Becker DG, Weinb erger MS, Greene BA, Tardy ME. Clinical study of alar anatomy and surgery of the alar
base. Arch Otolaryngol Head Neck Surg 1997 ;123:789- 795. 10. Tardy ME, Becker DG, Weinberger MS. Illusions in rhinoplasty. Facial Plast Surg 1995; 11:117-138. I I. Gunter JP, Rohrich RJ, Friedman RM. Classification and correct ion of alar-columellar discrepan cies in
rhinoplasty. Plast Recon str Surg 1996 ;97:643- 648.
3
Injection
INFILTRATIVE ANESTHESIA TECHNIQUE
Proper local anesthesia is critical to allow atraumatic dissection with minimal bleeding and edema. A total volume of less than 3 ml of 1% lidocaine with 1:100,000 epinephrine is typically used to attain anesthesia for rhinoplasty alone. When performing septorhinoplasty, as much as 10 ml of local anesthetic may be used. The anesthetic is allowed to take effect for at least 15 minutes to maximize the vasoconstrictive effect of the epinephrine.
To become familiar with a method of injection of local anesthetic agent, saline can be injected with a 5-ml syringe and 27 gauge (1.5 ern) needle along the site of injection in your cadaver specimen. Injection varies in some respects, based on the surgical approach selected; for example, the subdermal columellar injection may be omitted in an endonasal approach. A generalized approach to injection is described below. For a septoplasty, multiple 0.5-ml to 1.0 rnl injections are made in the subperichondrial and subperiosteal plane along the entire area of anticipated dissection. Injections also should be placed along the site of the proposed incision (Killian, hemitransfixion, etc.). Both sides of the septum should be injected if the surgeon plans to elevate mucosa bilaterally. The injection will aid in the dissection if placed in the subperichondrial plane . It is helpful to place an injection on the posterosuperior septum bilaterally to minimize bleeding from the sphenopalatine blood vessels.
Inject local anesthetic into the subdermal plane in the midline of the columella from tipdefining points to the nasal spine in preparation for the external approach (Fig. I). This injection is limited to < 0.3 ml to prevent distortion of the columella or nasal base. For either endonasal or external approach, inject < 0.3 ml of local anesthesia into the soft-tissue between and around the domes of the lower lateral cartilages (Fig. 2). The injection extends up to the region of the anterior septal angle . After completing this injection, gently massage the domal region between the thumb and index finger of both hands to disperse the anesthetic throughout the tip region. Place multiple injections of 0.1 ml of local anesthetic along the caudal margin of the lateral and intermediate crura (along the planned marginal incision; Fig. 3). Overinjection will result in distortion of the nostril rim and soft-tissue triangle. Inject <0.1 ml to raise a small bleb in the vestibular skin along the lateral aspect of the
25
\
Figure 1. Inject < 0.3 ml of local anesthetic into the subdermal plane in the midline of the columella from tip-defining points to the nasal spine in preparation for the external approach. This injection of the columella is necessary for the external approach but may not be necessary for most endonasal approaches.
Figure 2. Inject < 0.3 ml of local anesthetic into the soft tissue between the dome s of the lower lateral cartilages . Injection of the supratip is illustrated here as a percutaneous injection but also may be performed endonasally .
~\ )'1 I
Figure 3. Place multiple injections of 0.1 ml of local anesthetic along the caudal margin of the lateral and intermediate crura (along the planned marginal incision).
Injection 27
Figure 4. Inject < 0.3 ml along the planned incision site for the columellar flap of the external rhinoplasty approach.
medial crura, at the planned incision site for the columellar flap of the external rhinoplasty approach (Fig. 4).
For an intercartilaginous, transcartilaginous, or delivery approach, place similar injections of 0.1 ml intranasally along the respective incision sites (Fig. 5).
After inserting the needle between the upper and lower lateral cartilages (intercartilaginous), inject local anesthetic along the lateral wall of the nose approximately 1 ern off the midline (Fig. 6). The line of injection is along the lateral aspect of the nose and extends from the nasofrontal suture line to the cephalic margin of the lateral crura . Use <0.5 ml for this injection to prevent distortion of the tissues. Perform no injections along the dorsum of the nose to prevent distortion of the soft tissue that may inhibit accurate evaluation of the contour of the dorsum. In preparation for lateral osteotomies, inject on the outside and inside of the nasal bones just above the periosteum. After completing these injections , massage the injection sites to help disperse the local anesthetic and prevent tissue distortion.
PEARLS
• Subperichondrial and subperiosteal injections of local anesthetic will make dissection of the septal flap easier by hydrodissecting the flap. This is particularly
. ~~~~~ - ::; ~1'1;1
:i'll'
- ~ ~~
-1'
28 RHINOPLASTY DISSECTION MANUAL
Figure 5. For an intercartilaginous , transcartllaqlnous, or delivery approach , place injections of 0.1 ml intranasally along the incision site.
PEARLS, continued '
helpful when dissecting over fracture s in the cartilage, bone, or along the maxillary crest.
• Injection of the osteotomy sites s hould be performed on the i nside and outside of the ascending process of the maxilla. .
• Avoid excessive injection of local anesthetic into the columella; otherwise the Te~ '
lation between the ala and columella may be altered. • In cases in which dorsal hump excision must extend into the region of the nile
sofrontal angle, additional injections of local ane~thetic can be placed along the path of the supratrochlear artery and just medial to the medial canthus.
• If the surgeon plans to use lateral crural strut .grafts, injections of local anesthetic can be placed in the vestibular skin on the undersurface of the lateral crura where the vestibular skin will be dissected. '
I ~.
-~ "':'TI:
i II~'
• ::;It Ill
Injection 29
_..
- --=
A
Figure 6. A. Injection of local anesthetic along the lateral wall of the nose. B. Injection for lateral osteotomies.
REFERENCES
1. Beeson WH. The nasal septum. Otolaryn gol Clin North Am 1987 ;20:743-767. 2. Kasperbauer JL, Facer GW, Kern EB. Reconstruct ive surger y of the nasal septum. In: Papal!D, Nachlas NE,
eds. Facial plastic and reconstructive slIrgely. Philadelphia : Mosby Year Book, 1992:337- 343.
4
Septoplasty
NASAL DISSECTION: SEPTOPLASTY WITH CARTILAGE HARVEST
Hemitransfixion Incision with Anterior Septal Tunnels
1. Retract the colum ella with a small nasal speculum, multi toothed Brown-Adson forceps, large two-prong hook, or another suitable instrument. This maneuver exposes the caudal margin of the septum (1,2).
2. Make a hemitran sfixion incision along the caud al borde r of the cartilag inous septum with a no. 15 blade or no. 15-C blade . In this exercise, a hemitransfixion incision extendin g from the anteri or septal angle to the posterior septal angle is used to gain access to the caudal septum. A Killian incision can be used if access to the caudal septum is not necessary (Fig . IA).
3. In rare cases, the nasal spine should be exposed . 4. With a no. 15 blade, small , sharp -pointed scissors, or other suitabl e instrument, incise
the perichondrium of the septum adjacent to the caudal septum on one side . 5. Perform a subperichondrial dissection along the lower half of the septum to allow har
vesting of septal cartilage. Do not extend this dissection too high, so that later in the dissection a precise pocket tunnel can be made to place a spreader graft via an endon asal approach.
6. Repeat maneuver 5 on the oppo site side of the septum. 7 . If the septum needs any shortening, now may be a good time to perform selective exci
sion of the caud al aspect of the septum (Fig. IB-D). If rotat ion of the nasal tip is necessary, a superiorly based triangle of caudal septum can be excised (Appendix F). For an obtuse nasolabial angle, the posterior septal angle can be trimmed . For a tension nose deformity (3) or hangin g-columella deformity, the entire caudal septum may need to be trimmed. Instead of resection, an overly long midlin e caud al septum can be sutured between the medi al crura to provide support, increa se projection, and set tip-rotation and alar-columellar relation.
.;f,.,.. '" --;T,
. . ,!.~ ,I ; ~~ru . :-~I . - ~-
31
32 RHINOPLASTY DISSECTION MANUAL
B
""
C o Figure 1. A: A hemitransfixion incision (short dotted lines) or a Killian incision (longer dotted lines) may be used to perform septoplasty. B: Conservative excision in an overlong septum of a thin wedge of caudal septum to decrease columellar show or shorten the nose. C: Excision of a wedge of caudal septum with the base of the excised wedge anterior, for increased rotation. D: Excision of excess ive septum at the posterior septal angle to decrease fullness of the nasolabial angle.
Septoplasty 33
Figure 2. A generous L-strut of :2: 15 mm must be preserved to maintain adequate nasal support. If a dorsal-hump excision is planned, this must also be accounted for in preservation of an adequate L-strut.
Septal Surgery with Harvesting of Cartilage
Carry out a routine septoplasty or submucous-resection operation. To harvest septal car tilage, disarticulate the cartilaginous septum from its bony attachment (osseocartilaginous junction), leaving an ample attachment superiorly (dorsally) at the "Keystone" area . Incise the cartilage dorsally and caudally, preserving 2 15 mm anteriorly to support the nasal tip, and being sure that 215 mm will remain dorsaJly afte r hump removal (Fig. 2). Preserve this harvested septal cartilage for use as struts or grafts later on in this exercise. If inadequate septal cartilage is available, plan to harvest auricular cartilage for grafting purposes.
Note: We have described septoplasty via a hernitransfixion or a Killian' s incisi on. A viable alternative is to approach the caudal septum directly by performing an extern al rhinoplasty approach and separating the medial crura, thereby coming upon the caudal septum (Fig . 3). Septoplasty may then proceed as described earlier. Although this approa ch avoids the need for a septal mucosal incision, it is a more complex approach and carries with it a higher risk of loss of tip support if appropriate supportive maneuvers (e.g., columellar strut , caudal extension graft) are not undertaken. This approach is ideal in patients who have an overly long midline caudal septum (tension nose deformity). In these cases, the medial crura can be dropped back and sutured to the midline caudal septum. Thi s maneuver will allow shortening of the nose, deprojection of the nasal tip, or correction of the hanging columella deformity .
PEARLS
• Special care must be taken .to be sure the dissection is in the subperichondrial plane. If there is any blood-tinged tissue over the surface of the cartilage, there . may be a layer of perichondrium left on the cartilage.
• To correct aspur along the floor, a subperiosteal tunnel can be dissected along the · floor and connected to the dissection above the junction of the septum and maxil" lary crest. This method of dissection will minimize the chance of tearing the mucosal flap along the maxillary crest. . ' . .
• If-the surgeon plans to apply spreader grafts into precise submucosal tunnels, a bridge ofmucosa should be left on the dorsal septum. This will allow the surgeon
• to create tunnels under the junction of the upper lateral cartilages and septum to · accept the grafts.
• If the surgeon plans to approach the caudal margin of the septurri to correct defor
34 RHINOPLASTY DISSECTION MANUAL
A B
"
c D
"
E F
Figure 3. To perform septorhinoplasty, a viable approach to the septum is to perform an external rhinoplasty approach and separate the medial crura, thereby coming upon the caudal septum , and then proceeding with elevation of mucoperichondrial and mucoperiosteal flaps in standard fashion. Before dissection, local anesthetic should be injected between the medial crura and into the vestibular skin caudal to the caudal septum. While an assistant holds the lower lateral cart ilages laterally (A) , the surgeon dissects between the medial crura (B) until the caudal septum is identified (e). Special care must be taken to remain in the proper plane between the crura. The mucoperichondrial flaps are next further developed with an elevator (D). The dorsal septum can be divided from the upper lateral cartilages in an anteriorto-posterior direction (E) after both mucoperichondrial flaps have been elevated to the junction of the upper lateral cartilage and septum (extramucosal dissect ion). This will allow preservation of continuity of the intranasal mucosa while dividing the upper lateral cartilages from the dorsal septum. Bilateral mucoperichondrial flaps are developed for wide access to the septum (F). Appropr iate support ive maneuvers (e.g., columellar strut, caudal extension graft) are undertaken because of the risk of loss of tip support. With an overly long caudal septum, the medial crura can be sutured back on a midline caudal septum to provide support and set tip position.
- - "
~I . "ill
Septoplasty 35
0- _
PEARLS, continued
, mity or to shorten the septum, the septum can be approached through the external . rhinoplasty approach . .
0 ' After dissecting between the medial crura to approach the septum, the medial can be dropped back ~nd sutured to an overly long midline caudalseptum. This maneuver will create a more rigid nasal tip without normal tip recoil.
o If significant bleeding is noted, the surgeon can reinject the mucosal flaps and place neurosurgical pledgers bilaterally to compress the mucosal flaps.. .
REFERENCES
I . Tardy ME. Rhinoplasty: the art and the science. Philadelphia: WB Saund ers, 1997. 2. Beeson WHo The nasal septum, Otolaryn gol Clin North Am 1987;20:743-767. 3. Johnson Clvl Jr, Godin MS. The tension nose: open struc ture rhinoplasty approach. Plast Reconstr Surg 1995;
95:43- 51.
5
Incisions and Approaches
Incisions are methods of gaining access to the bony and cartilaginous structures of the nose and include transcartilaginous, intercartilaginous, marginal, and transcolumellar incisions. Approaches provide surgical exposure of the nasal structures including the nasal tip and include cartilage-splitting (transcartilaginous incision), retrograde (intercartilaginous incision with retrograde dissection), delivery approach (intercartilaginous, marginal incisions), and external (transcolumellar and marginal incisions). Based on an analysi s of the individual patient's anatomy, appropriate incisions, approaches, and tip-sculpturing techniques are selected (I) (Appendix E). , In this section , a transcartilaginous incision is performed on one side. Then an intercar
tilaginous and marginal incision is made on the other side to deliver that cartilage. Next, proceed with the external rhinopl asty approach. Following these instructions will allow an experience with several incisions and approaches in a single specimen.
TRANSCARTILAGINOUS INCISION OR CARTILAGE-SPLITTING APPROACH
As demonstrated in the accompanying figures, use a two-prong retractor and the middle finger of the nondominant hand to expose the lower lateral cartilage (LLC).
Locate the caudal and cephali c margins of the lateral crura. (The surgeon must identify the cephalically positioned lateral crus when it is present before executing this incision.) Make an incision through vestibular skin only 5 mm to 8 mm cephalic to the caudal margin of the lateral crus of the LLC incision . Figure I illustrates the site of a transcartilaginous incision and the more cephalic location of an intercartilaginous incision. With scissors, dissect free the vestibular skin in a cephalic direction to just beyond the cephalic edge of the lateral crus (Fig. 2). Then incise the lateral crural cartilage and free the cephalic portion (to be removed) from its remaining soft-tissue attachments by dissecting superficial to it in the supraperichondrial plane . Use a skin hook to retract the caudal vestibular skin and another skin hook to retract the nostril margin. An assistant may hold the skin hook that retracts the nostril margin, while the surgeon grasps the cartilage to be removed and completes the excision by dividing any last soft-tissue attachments with scissors (Fig. 3) (1,2).
37
38 RHINOPLASTY DISSECTION MANUAL
Figure 1. · Retraction with a wide two-prong retractor and the middle finger of the nondominant hand exposes the transcartilaginous incision site and also the more cephalically located intercartilaginous incision site.
Figure 2. In a cartilage-splitting approach, dissect the vestibular skin in a cephalic direction to just beyond the cephalic edge of the lateral crus. Then assess how much lateral crus should be removed, and incise the lateral crural cartilage . Be sure to leave ~7 mm to 9 mm of intact strip.
~
[III
d~, . :\2~'
~ill,
39 Incisions and Approaches
A B
c
Figure 3. A: Use a skin hook to retract the caudal vestibular skin and the nostril margin. Free the cephalic portion (to be removed) from its remaining soft-tissue attachments by dissecting superficial to it in the supraperichondrial plane. Grasp the cartilage to be removed, and complete the excision by dividing any last soft-tissue attachments with scissors . B: The carti lage incision must come far enough medially to include the cephalic lateral crus at the dome region , or else supratip fullness may persist. However, it is important not to incise too far inferomedially, or the cartilage (which is typically narrow at this region) may be excessively weakened or divided. C: A 3D-gauge needle placed percutaneously at the dome can help guide the medial aspect of the transcartilaginous incision in selected cases.
40 RHINOPLASTY DISSECTION MANUAL
DELIVERY APPROACH (PERFORM ON SIDE OPPOSITE CARTILAGESPLITTING APPROACH)
Intercartilaginous Incision
By using a two-prong retra ctor , evert the caudal margin of the nostril and, by applying pressure with the middle finger of the nondominant hand, reveal the gap between the caudal margin of the upper lateral and the cephalic margin of the lower lateral cartilages. With a sca lpel, make an intercart ilaginous incision in this location (Fig . 4) (1,2).
A,S f
o E
Figure 4. A-C: Intercartilaginous incision. D: For an intercartilaginous approach, bilateral intercartilaginous incisions are connected in the midline over the anterior septal angle, and the incision extends anterior to the caudal septum as a high partial-transfixion incision . Exposure of the middle and upper nasal vault proceed as described in the text. E: After com pletion of the intercartilaginous approach, a Converse retractor (or other appropriate retractor) may be inserted through the incisions, beneath the skin/soft-tissue envelope, to provide exposure of the upper two thirds of the nose.
41 Incisions andApproaches
Marginal Incision
By using a two-prong retractor, evert the caudal margin of the nostril in which an intercartilaginous incision was made and, by applying pressure with the middle finger of the nondominant hand, define the caudal margin of the lower lateral cartilage. Pressing cephalad on the nasal dome will cause the caudal margin to appear laterally. Remember that the non-hair-bearing area is a guide to the caudal margin of the lateral crus. Furthermore, palpation of the cartilage edge with the handle of the scalpel can be helpful before cutting. By using the two-prong retractor to obtain proper exposure, make the marginal incision just caudal to the caudal edge of the lower lateral cartilage (Fig. 5). Great care must be taken as the lateral incision nears the midline. Make sure that the incision follows the cartilage edge and does not take a "short-cut" along the alar rim, which can damage the facet area. Great care must be taken not to cut across a narrow dome or intermediate crus (1,2).
Delivery of lower lateral cartilages
At this stage, an intercartilaginous incision and marginal incision on one side and a transcartilaginous incision on the other side have been made. Reinsert the two-prong retractor into the nostril with the intercartilaginous and marginal incisions and present the caudal margin of the lower lateral cartilage with the aid of pressure from the third finger of the nondominant hand.
Use a slightly curved, fine-pointed dissecting scissors to lift and dissect the soft tissues from the surface of the lower lateral cartilage (Fig. 6). Perform this dissection by inserting scissors into the marginal incision laterally and then separate the perichondrium of the lower lateral from the overlying external skin and soft tissue with a spreading motion. If this is difficult, caudal traction on the vestibular skin underlying the lower lateral cartilage, with a fine two-prong hook, will facilitate this maneuver (Fig. 7) by pulling the lateral crus into the vestibule and thus opening up the potential dissecting plane. Avoid damaging the overlying muscle and nasal vasculature (1,2).
A B
Figure 5. Marginal incision. The nondominant hand is critical to obtain proper exposure.
42 RHINOPLASTY DISSECTION MANUAL
Figure 6. Dissect the soft tissues from the superficial surface of the lower lateral cartilage.
Do not work too far laterally. The latera l one fourth of the lower lateral cartilage should be avo ided by the surgeon in near ly all cases.
Place the hook end of a Nievert retracto r through the intercarti laginou s incision and draw the now-free lateral crus down , like a visor. until it appears outside of the vestibule. It can be held in this position by the Nievert or by another suitable instrument (Fig . 8).
Examine the lower latera l cartil ages for unique anatomic features and asymmetries.
Figure 7. Caudal traction on the vestibular skin underlying the lower lateral cartilage with a fine two-prong hook pulls the lateral crus into the vestibule and opens the potential dissecting plane.
43 Incisions and Approaches
Figure 8. Delivery of lateral crus of lower lateral cartilage.
THE EXTERNAL (OPEN) RHINOPLASTY APPROACH
Background
The external rhinoplasty approach to the nose provides maximal exposure of the lower lateral cartilages, upper lateral cartilages (Ul.Cs) , middl e nasal vault, and bony nasal vault. These supportive structures can be manipulated in a precise and symmetric fashion . The increased exp osure facilitates accurate suture placement and fixation of cartilage grafts. The external rhinoplasty approach also facilitates diagnostic capability and is a tremendous aid in teaching rhinoplasty (3-10) (Appendix K).
The incisions used in this app roach include a transcolumellar incision connected to bilateral marginal incisions. The actu al configuration of the transcolumellar inci sion is not as critical as the placement of the inci sion . The incision should be made at the level of the midcolumella where the caudal margins of the medial crura lie close to the skin and can support the incision to help prevent a depressed scar. An inverted-V incision, or some other broken-line incision, is used to break up the scar and lengthen it to minimize scar contracture. The surgical dissection must be performed in the proper areolar tissue planes to minimize tissue damage and scarring, maintain hemostasis, and maximize redraping of the skin/soft-tissue envelope. Dissection in proper tissue planes will help preserve vascular structures of the flap , ensure flap viability, and minimize bleeding, postoperative edema, and scarring ( I I) .
NASAL DISSECTION: EXTERNAL (OPEN) RHINOPLASTY APPROACH
Marking the Transcolumellar Incision
Begin the dissection by outlining the transcolumellar incision used in the external rhinoplasty approach with a marking pen . Mark an inverted-V transcolumellar inci sion at the level of the midcolumella (Fig. 9). The midcolumellar incision should be marked midway between the top of the nostril and the base of the columella, where the caudal margin of the medial crura lie just beneath the skin, to provide support for the incision. The midcolumellar incision will be connected to bilateral marginal inci sion s, which are placed ju st caudal to the caud al margin of the lateral crura (Fig. 10). The marginal incision should not be made along the rim of the nostril (rim incision). The marginal incision may be marked with a marking pen as well.
44 RHINOPLASTY DISSECTION MANUAL
A B
c
Figure 9. A-C: Inverted-V incision on the midcolumella, at a level where the margin of the medial crura lies just beneath the skin.
A B
Figure 10. A, B: Marginal incisions are placed just caudal to the caudal margin of the intermediate and lateral crura .
I I ~ I
• • I I
45 Incisions and Approaches
Midcolumellar Incision
By using a no. 11 blade with a "sawing" motion, follow the midcolurnellar markin gs to complete the midcolumellar incision (Fig. 11). Proceed medial to lateral on one side of the columella and then the other. Take special care to keep the blade perpendicular to the skin edges, thereby preventing beveling of the skin edges. (Beveling of the skin edges may lead to a "trapdoor" deformity with eventual unacceptable scar). While incising laterally, be careful to stay superficial to avoid damage to the caudal margin of the medial crura . Use a no. 15 blade to make the columellar extension of the marginal incision on both sides of the columella, 1 to 2 mm behind the leading edge of the columell a (Fig. 12). This incision is made along the caudal margin of the medial and intermediate crura. By minimizing the dissection over the medial crus, damage to this cartilage can be avoided.
Figure 11. A-C: Midcolumellar ' incision made by using a no. 11 blade with a sawing motion. Keep the blade perpendicular to the skin edges, and stay superficial to avoid damage to the caudal margin of the medial crura.
A
B c
46 RHINOPLASTY DISSECTION MANUAL
A B
•• I
E
C
F
Figure 12. A: Columellar extension of marginal incision. 8-0: Columellar extension of marginal incision in a patient. E, F: Marginal incision.
47 Incisions and Approaches
Marginal Incision
Beginning laterally, make a light incision throug h vestibu lar skin 1 to 2 mm cauda l to the caudal margin of the late ral crura . Follow the caudal margin of the lateral crura as the incision is extended medi ally. (The dissector has already made the marginal incision on one side; here simpl y make a marginal incision on the other side .)
Define the Columellar Flap
By using angled Converse scissors, or another suitable dissecti ng scissors, elevate the thin vestibular skin of the flap that covers the medial crura. Insert the scissors beneath the columellar extension of the marginal incision and dissect med ially in the correct plane of dissection, below the musculoaponeurotic layer (Fig. 13). The scissors should then pass superficia l to the caudal margin of the ipsilateral and then contralateral medial crus (Fig . 14). Guide the scissors through the oppos ing colume llar extension of the marginal incision (Fig . 15). During this dissection, take special care to avoid damaging the flap or the caudal margin of the medial crura . Use the scissors to spread the tissues in the plane of dissection (Fig. 16). If not positioned properly, the dissector may cut through the cauda l margin of the media l crura. To avoid this, the dissector must remain caudal to the medial crura and dissects very carefully.
Flap Elevation
Use the Con verse scissors to compl ete the midcolumellar incis ion without beve ling the incision or damaging the medial crura (Fig. 17). Take specia l care to avoid beveling this incision. Use a narrow do uble-prong hook to retract the flap. Th e paired columellar arteries may be see n, and typic ally must be cauterized with bipolar cautery .
Figure 13. To elevate the thin vestibular skin of the flap that covers the medial crura, insert the scissors beneath the columellar extension of the marginal incision and dissect medially in the correct plane of dissection , below the musculoaponeurotic layer. If one meets resistance, they can alternate dissection to the contralateral side of the columella.
- -
48 RHINOPLASTY DISSECTION MANUAL
Figure 14. The scissors pass superficial to the caudal margin of the ipsilateral and then contralateral medial crus.
Figure 15. Guide the scissors through the opposing columellar extension of the marginal incision.
- T~
• '",!I' n
49 Incisions and Approaches
A Figure 16. A, B: Spread the tissues in the plane of dissection.
B
Figure 17. A, B: Complete the midcolumellar incision. Do not bevel the skin edges, or an unaccept
A able scar (due to a trapdoor deformity) may result.
B
50 RHINOPLASTY DISSECTION MANUAL
Three-Point Countertraction
To elevate the skin/soft-tissue enve lope over the nasal tip, (a) place a wide doubl e-prong hook along the margin of the nostril rim caudal to the latera l crus, (b) place a small doubleprong hook on the columellar flap , and (c) place a small double-prong hook on the vestibular skin side of the intermediate crus (Fig . 18). Then use Converse scissors to dissect the columellar flap from the caudal margin of the medial and intermed iate crus, as the countertraction acts to expose the areolar tissue plane. The scissors are used to expose the caudal aspect of the lateral crus as well. Then the dissection advances cephalica lly over the surface of the lateral crus . As the dissec tion continues along the surface of the lateral crus, soft tissue is elevated, leaving only perichondrium on the carti lage . As dissection proceeds laterally along the lateral crus, cut the vestibular skin along the caudal margin of the lateral crus, thereby completing the marginal incision. Make small, calibrated cuts under direct vision to avoid inadvertently cuttin g through the lateral crus . Limit dissection of the lateral crus to the areolar tissue plane deep to the muscle. A cotton-tip applicator can be used to comp lete the dissection of the lateral crus once the deep aero lar tissue plane has been identified. A portio n of the dissection on the opposite side was performed with the cartilage delivery approac h; nevertheless, repeat these maneuvers on the oppos ite side to complete elevation of the skin/soft-tissue envelope over the nasa l tip.
[An alternative approach to this dissectio n is to begin dissection through the marginal incisio ns (retrograde dissection) (12).] In this approach, identify the proper tissue plane , and elevate the skin/soft-tissue envelope off the lateral crus . Then proceed medially with scissor dissection toward the domes and intermedia te crura. This maneuver is performed bilatera lly to achieve elevation of the skin/soft-tissue envelope.
This retrograde dissection is helpful if the surgeon is having difficulty following the caudal margin of the intermediate and lateral crus. Th is is not unusual in cases in which there is buckling of the intermediate crus or domes. Retrograde dissection genera lly is not the approac h of choice for seco ndary rhinoplasty, as the lateral crura may have been exci sed or previously dissecte d.]
• • [Examine the latera l crura on the side of a transcartilaginous incision and cephalic trim. Evaluate the excision of cephalic cartil age. Was it stopped too short, leaving cephalic latera l crus at the dome region? Did the incision go too far; was the dome inadvertently divided? Was too much cartilage taken? Measure the amount of lateral crus remaining; there should be at least 7 mm to 9 mm.]
A B
Figure 18.
51 Incisions and Approaches
C D
E F
G
Figure 18. A, B: With three-point countertraction exposing the areolar tissue plane, use Converse scissors to dissect soft tissue from the caudal margin of the intermediate and lateral crus. Dissection of the skin/soft-tissue envelope proceeds in the deep areolar plane below the muscle, leaving only perichondrium on the cartilage. C: As dissection proceeds laterally , follow the caudal edge of the lateral crus and cut the marginal incision . Make only a very small cut at a time, and take great care to avoid cutting the cartilage. D: As dissection continues laterally, the marg inal incision is extended laterally as described above . E: When dissecting the proper tissue plane , a cotton -tip applicator can be used to sweep soft tissue off of the lateral crus . F: Completed exposure of the left lateral crus via the external approach . G: Dissection has been completed of both the left and right lateral crus , and attention will now be directed toward the midline.
52 RHINOPLASTY DISSECTION MANUAL
Midline Dorsal Dissection
Divide fibrou s connections in the midline near the surface of the domes to release the flap and allow dissection cranially (Fig. 19). Do not dissect tissue from between the domes; otherwise a midline band of tissue may be left on the flap. Shift the dissection to the midline, where the anterior septal angle is identified with a spreading action of the Con verse scissors or other suitable dissecting scissors. Once the blue hue of the cartilaginous middle third of the nose has been identified, create a midline tunnel over the cartilaginous middle vault. Then use a cotton-t ip applicator to dissect bluntly the soft-ti ssue envelope cranially and laterall y (Fig. 20). This maneuver will frequentl y expose sizable blood vessels that can be spared, as they are dissected laterally. Depending on the degree of exposure that is needed, some fibrou s connections may need to be cut near their attachment to the cartilaginous nasal vault (Fig. 21). Muscle and vessels can be spared by dividing tissues close to the surface of the cartil ages.
A B
c o
'IIII~
,~" "
53 Incisions andApproaches
E F
Figure 19. A-C: Shift the dissection to the midline, and divide fibrous connections in the midline near the surface of the domes to release the flap and allow dissection cranially. Do not dissect tissue from between the domes ; otherwise, a midline band of tissue will be left on the flap . With a spreading action of the Converse scissors or other suitable dissecting scissors (D, E), identify the blue hue of the cartilaginous middle third of the nose, and create a midline tunnel over the cartilaginous middle vault (F).
A B
Figure 20. A: If dissection proceeds in the proper tissue plane, a cotton-tip applicator can assist in the exposure. B: Divide the decussat ing fibers (apply bipolar cautery first ) to connect the dissected spaces over the middle vault and lateral crura .
____ _ __ ____0 _
54 RHINOPLASTY DISSECTION MANUAL
A B
Figure 21. A, B: Exposure of the middle nasal vault.
Exposure of Cartilaginous and Bony Dorsum
Exposure ofthe Cartilaginous Vault
The cartil aginou s vault , typically corresponding to the middle third of the nose, can be exposed as described earlier. Alternatively, as with a cartilage-splitting, retrograde, or delivery approach, the skin/soft-tissue envelope can be exposed either by using sharp scalpel dissection or by scissor dissection in the supraperichondrial plane .
Use a scalpel (no. 15 blade) or long , slightly curved dissecting scissors to elevate the soft tissues in the midline, working up toward and just beyond the rhinion, inserting and opening, but not cutting, with the blades under the skin .
Lay bare the perichondrium of the ULC in the midline but do not extend too far laterally at this stage. Take special care not to follow the ULC below the caudal margin of the nasal bones . Such a maneuver may result in disarticulation of the ULCs from the nasal bones.
Elevation of Periosteum/Exposure ofBony Vault
Under direct vision by using an Aufricht or Converse retractor, use a Joseph periosteal elevator or other appropriate instrument to cut through the periosteum 2 mm cephalad and parallel to the caudal margin of the nasal bones (Fig . 22) .
Alternatively, palpate the junction between the nasal bone and ULCs with the Joseph elevator beneath the skin/soft-tissue envelope by gently allowing the Joseph to "fall" off the nasal bone onto the ULCs as it is withdrawn. The Joseph elevator can then be seated 2 mm above this junction with certainty, and the periosteum incised. Elevate the periosteum off the bony nasal vault up to the nasion. Then elevate in the subperiosteal plane over the bony dorsum toward the midline and laterally (Fig. 23). Execute these maneuvers bilaterally (Fig. 24) . Do not extensively undermine over the side walls of the bony nasal pyramid at
55 Incisions and Approaches
,.
Figure 22. Subperiosteal dissection over bony nasal vault up to the nasion.
Figure 23. Cross section at level of nasal bones, illustrating dissection in subperiosteal plane. Lateral and medial motion of the elevator achieves this elevation in the subperiosteal plane.
Figure 24. After bilateral elevation , the midline decussating fibers remain undivided. These generally are severed with scissors .
56 RHINOPLASTY DISSECTION MANUAL
this stage . Next , sever the midline internasal suture attachments; this can be accomplished with scissors or sharp elevator. Make sure that the nasal skeleton is completely freed from the overlying skin. Pass an elevator or similar instrument from side to side over the bonycartilaginous dorsum . This completes the execution of the external rhinoplasty approach.
[The dissector now has exposure via the external rhinoplasty approach. When achieving exposure via an endonasal approach, the intercartilaginous or transcartilaginous incisions are typically connected caudally in the midline and continue over the caudal septum as a high partial-transfixion incision, as described previou sly (see Fig. 4D and E). Direct visu alization of the nasal dorsum is thus achieved with the aid of an Aufricht or Converse retractor inserted through the intercartilaginous or transcartilaginous incision.
[Note: If the dissector wishes to place spreader graft s via a precise pocket endona sal approach, it should be undertaken now. The technical steps are described in Chapter 8. Later , after hump removal (Chapter 6) and osteotomies (Chapter 7) , the dissector will place spreader grafts via the external rhinoplasty approach.
PEARLS
• If the surgeon plans to place a dorsal graft or radix graft, a precise pocket can be made over the upper dorsum and/or radix. This will allow the surgeon to place the graft into a precise pocket and minimize the chance of graft migration.
• If the surgeon plans to place an alar batten graft, the lateral extent of the dissection should be minimized. .
• During the extermil rhinoplasty approach, elevation of the skin/soft-tissue envelope from the underlying supportive structures of the nose results in disruption of the minor tip-support mechanism provided by the attachment of the skin/soft-tissue envelope to the lower lateral cartilages. To help offset this loss oftip support, a columellar strut cartilage graft can be 'sutured in a pocket between the medial crura . Such a strut is used to support the medial crura to preserve tip projection and not necessarily to increase tip projection (Appendix F).
• The columellar extension of the marginal incision should beplaced only 1 to 2 mm . behind the face of the columella to minimize dissection of vestibular skin and to avoid damage to the caudal margin of the medial crura,
• When advancing the converse scissors across the .columella to the opposite marginal incision, special care should be taken to remain caudal to the medial crura .
• Dissect in the tissue plane just above the perichondrium. Avoid violating the muscle layer. .
• DUling dissection; follow the caudal margin ofthe lower lateralcartilages. Ifthe caudal margin is lost sight of, move laterally to pick up the lateral crus, and dissect ' · retrograde to avoid cutting across a buckled intermediate crus or deformed dome.
• Precise closure of the midcolurnellar incision, with meticulous alignment of the skin edges, is critical to prevent an unsightly scar. Principles ofskin-edge eversion and tension-free closure will also help prevent a visible scar. Vertical mattress-suture closure aids in skin-edge eversion. ' . ' .
REFERENCES
1. Tardy ME, Tor iumi OM . Philo sophy and prin ciple s of Rhinopl asty. In : Cumm ings CW , Fredri cks on JM, Harker LA, et aJ. Otolaryngology -head & neck surgery. 2nd ed. SI. Louis : Mosby Year Book, 1993:278-294.
2. Tardy ME. Rhinoplasty : the art and the science. Philad elphi a: WB Saunders, 1997. 3. John son CM Jr , Toriumi OM . Open structure rhinoplasty. Philad elphia: Saunders, J990 . 4. Adamson PA. Open rhinoplasty . In: Papel 10, Nachl as NE, eds. Facial plast ic & reconstruct ive surgery. SI.
Lou is: Mosby Year Book, 1992:295-304. 5. Larrabee WF Jr. Open rhinoplasty and the upper third of the nose. Facial Plast Surg Clin North Am J993 ; I:
23- 38.
57 Incisions and Approaches
6. To riumi OM , John son Clvl. Open structure rhinopl asty featured technical points and long- term follow-up . Facial Pla st Surg Clin North Am 1993;1:1- 22.
7. Tori urni OM. Management of the middle nasa l vault. Oper Tech Plast Reconstr Surg 1995;2: I6-30. 8. To riumi OM, Ries WR. Innovative surgical management of the crooked nose. Facial Plast Surg Clin North
Am 1993;1:63-78. 9. Toriumi OM , Johnson Clvl. Management of the lower third of the nose: ope n structure rhinoplasty technique.
In: Pape1 !D, Nachlas NE, eds. Fac ial plastic & reconstructive surgery. St. Louis: Mosby Year Book, 1992: 305- 313.
10. Gunt er JP. The merit s of the open approach in rhinop lasty . Plast Reconstr Surg 1997;99:863- 867. 11. Toriumi OM , Mueller RA, Grosch T, Bhattacharyya TK , Larrabee WF. Vascular anatom y of the nose and the
externa l rhinoplasty approach. Arch Otol Head Neck Surg 1996; 122:24-34. 12. Thoma s JR . Externa l rhinop lasty : intact co lume llar appr oach . Laryngo scope J990; 100:206-208.
6
Removal of Bony-Cartilaginous Hump
In this exercise, the car tilaginous and bony hump are removed en bloc. Be conservative! Plan to take a small amount of the hump off at first and thereby avoid incising the mucoperichondrium, which provide s important support. Later, after the bony-cartilaginous hump has been removed, be prepared to make multiple fine adjustments of both the septum and dorsal margins of the upper lateral cartilages. When lowering the dorsal septum, keep in mind the importance of allowing for the thicker skin over the lower one third of the nose. Also, recognize that inadequate resection at the supratip may result in a polly-beak deformity. (Appendix G)
[Note: The dissector may wish to incise the skin/soft-tissue envelope down the midline either now or subsequent to this chapter. The hump excision may be done first, and then split the skin to exami ne the result and allow easy exposure for subsequent maneuvers. If the dissector intends to augment the dorsum with a cartilage graft, this may be done first, and then split the skin for easy exposure during the remaining dissection. The skin in the midlin e can be sutured back together as desired at any time.]
Expose the cartilaginous dorsum with a Converse retractor, and use a no. 15 blade to incise lightl y any remaining soft tissue overlying the cartilaginous dorsum. Reflect this tissue laterally on both sides. Next, beginning at the osseocartilaginous junction and proceeding caudally, incise the cartilaginous dorsum at the planned level of initial excision (Figs. 1 and 2). Try to keep this incision even on both sides, but remember that there will be additio nal "fine-tuning" modifications after initial hump excision.
Unde r direct vision, place an osteotome agai nst the bony hump at the osseocartilaginous junction (Fig. 3). Use the incised but attached cartilaginous dorsum to help seat the osteotome at this locat ion. With a gentle, controlled two-tap technique, incise the bony hump with the osteotome (Fig. 4). Take care not to overresect the bony hump , as the osteotome will tend to cut deepe r into the bone . Remove the hump with a hemo stat or similar instrument , and examine its features (1,2).
When exec uting hump excision , preserve the underlying nasal mucoperichondrium. The nasal mucoperichondr ium provides support to the upper lateral car tilages and helps decrease the risk of inferomedi al collapse of the upper lateral cartilages after hump excision (Fig. 5). [Inferomedi al collapse of the upper lateral cart ilages and inadequate infracture of
59
, .
60 RHINOPLASTY DISSECTION MANUAL
Figure 2. At this stage, the cartilage remains attached at the Figure 1. Beginning at the osseocartilaginous junction and osseocart ilaginous junction. proceeding caudally, incise the cartilaginous dorsum at the planned level of initial excision. This amount of excision is larger than normally performed. Most patients would require smaller dorsal hump excisions.
Figure 3. Under direct VISion, insinuate an osteotome against the bony hump at the osseocartilaginous junct ion. Use the incised but attached cartilaginous dorsum to help seat the osteotome at this location.
Figure 4. A,S: With a gentle, controlled, two-tap technique , incise the bony hump with the osteotome . Careful examination of the excised hump can help guide additional calibrated excision of remnant cartilage or bone. Assess whether the nasal mucoperichondrium was successfully avoided. C,D: Patient underwent dorsal hump excision and application of radix graft. E.F: Conservative dorsal hump excision leaving high profile.
B
c L~ _ D
F 61
-------~ ------ ---~~ - - --- ---- -- --
62 RHINOPLASTY DISSECTION MANUAL
A
Figure 5. Cross-section at the level of the cartilaginous vault (A). The nasal mucoperichondrium provides support to the upper lateral cartilages and helps decrease the risk of inferomedial collapse of the upper lateral cartilages after hump excision (B, e). When the nasal mucoperichondrium is violated, inferomedial collapse of the upper lateral cartilages may occur (D, E).
B
E
the nasal bones can lead to an "inverted V deformity," in which the upper lateral cartilages collapse inferomedially, and the caudal edges of the nasal bones are visible in broad relief, creating an unacceptable appearance.] (3,4) (Appendix G)
Now make additional fine-tuning modifications to the cartilaginous dorsum as indicated. Examination of the excised hump may guide any additional excision. Trim the anterior (dorsal) margins of the upper lateral cartilages such that they lie on a level with or ju st below that of the trimmed border of the septum. Additional modification of the bony dorsum also may be required.
An "open roof" may be created by hump removal. The bony margin s should now be smoothed with a rasp by using few but firm strokes (Fig. 6). Any bony fragments should be removed, making sure that all obvious particles are removed from under the skin/softtissue envelope.
An alternative to the manual rasp is a powered reciprocating rasp or sheathed burr (Figs. 7 and 8) (5). These instruments can be used wherever a manual rasp would be used , but with less soft-tissue trauma. The site to be treated can be directly visualized. The powered instruments are especially useful to smooth the bony marg ins of the open roof. They also are useful to correct isolated bony irregularities that may be encountered, for example, in secondary rhinoplasty. It appears that a more reproducible result can be obtained with a lower incidence of visible or palpable bony dorsal irregularities. After rasping or burring, bone particles should be irrigated from the surgical site .
63Removal oj Bony-Cartilaginous Hump
Figure 6. Smooth the bony margins with a rasp by using few but firm strokes , cutting only on the downstroke.
Figure 7. The powered reciprocating rasp is an alternative to the manual rasp.
64 RHINOPLASTY DISSECTION MANUAL
Figure 8. The powered sheathed suction bur is an alternative to the manual rasp.
[Note: This is one approach to hump excision. Another approach is described here. In some cases, the surgeon may wish first to separate the upper lateral cartilages from the dorsal septum. This is accomplished in the submucoperichondrial plane and can be readily accomplished through the hemitransfixion incision or external rhinoplasty approach (Fig. 9). Then rather tban excising the entire cartilaginou s hump , only a strip of dorsal septum is excised. The remainder of the hump excision proceeds as described earlier; tbe upper lateral cartilages are then shaved down individually so that they are at the same level as the dorsal septum.] This method is good for excision of large dorsal humps where preservation of mucosal cont inuity may be otherwi se difficult.
PEARLS
• Two-tap technique: Overzealous force on the osteotome may lead to loss ~f con- . trol and undesired under- or overresect ion of the dorsal hump . A controlled excision of the bony dorsum is best ach i~ved with a careful , repeated 'two-tap technique designed to advance the osteotome only a short distance at a time.
• The surgeon should be sure that theosteotomesare sharp to allow precise bone . cuts. . .
• .In cases with large dorsal humps, an extramucosal reduction can be performed by dissecting mucosa off the undersurface of the middle and upper vaults. . .
• The beginning surgeon may wish to premark the proposed hump excision on the ' nasal skin. .
• If the surgeon feels uncomfortable using an osteotome for dorsal-hump removal , a sharp rasp will be effective with less risk of overresection.
• The periosteum must be cleared f rom the bone prior to rasping to insure effective lowering of the bone.
• Most dorsal humps are primarily cartil aginous. Therefore, the dissector should limit excision ofthe bony vault : .. . '.
-
,'''Ifil ... :~l
11 11
il~ ,I
65 Removal oj Bony-Cartilaginous Hump
A B
c D
Figure 9. A-E: Division of the upper lateral cartilages from their attachment to the dorsal septum in the submucoperichondrial plane. Great care should be taken to preserve an intact mucoperichondrium.
66 RHINOPLASTY DISSECTION MANUAL
E F
G
Figure 9, continued. F: Division of the upper lateral cartilage from the attachment to the dorsal septum , with dissection of a submucoperichondrial flap, may be accomplished from above , as shown here via the external rhinoplasty approach . G: This dissection begins at the anterior septal angle, and then subperichrondrial dissect ion is performed .Completed division of upper lateral cartilages from septum.
REFERENCES
I. Tardy ME . Rhinoplasty: the art and the science. Philadelphia : WB Saunders, 1997. 2. Larrabee WF Jr. Open rhinoplasty and the upper third of the nose . Facial Plast Surg Clin North Am 1993;1:
23-3 8. 3. Johnson CM Jr , Toriumi DM . Open structure rhinoplasty. Philadelphia : WE Saunders, 1990. 4. Toriurni DM. Management of the midd le nasal vault. Oper Tech Plast Reconstr Surg 1995;2:16- 30. 5. Becker DG, Toriumi DM. Gross CW, Tardy ME. Powered instrumentation for dorsal nasal reduction. Facial
Plast Surg 1997 ;13:291-297 .
7
Osteotomies
MEDIAL OSTEOTOMIES
To perform medial osteotomies, insert the osteotome at the jun ction between the nasal bone and septum. With the two-tap technique, advance the cutting edge cephalad and fade laterally as the frontal bone is reached (Fig. 1). Control the sharp leading edge of the chisel, as it moves under the skin, with the forefinger of the nondominant hand . Thi s fading medial osteotomy avoids the thick frontal bone. Medial osteotomies are usually not necessary in cases in which large dorsal humps are excised, leaving an open-roof deformity .
LATERAL OSTEOTOMIES AND INFRACTURE
[Note: The dissector may wish to mark the site of the propo sed osteotomy on the skin before proceedin g. Perform the lateral osteotomy on one side, and then reflec t the skin/softtissue envelope laterally to examine it. Is it in proper position? Is the periosteum intact, or has it been violated? Is the mucoperiosteum intact?
After assessing the first lateral osteotomy, the skin of the opposite side may be reflected before the osteotomy. Th is will allow observation of the osteotomy unde r direct vision.]
The lateral osteotomi es run from the most lateral point of the pyriform aperture to a point medial to the inner canthus of the eye, taking a high to low to high path . In practice, this means a starting point 3 mm to 4 mm above the base of the pyriform aperture and adja cent to the head of the inferior turbinate. The high-to-low lateral osteotomy preserves a small triangle of bone at the base of the pyriform aperture (Fig . 2) . Use a 2-mm (unguarded) or 3-mm (guarded or unguarded) curved or flat osteotome. Use a guarded or unguarded osteotome based on preference.
Make a small incision near the base of the pyriform apertur e. Althou gh it is not essential, many surgeons create a short subperiosteal tunnel along the path of the proposed lateral osteotomy . Seat the osteotome on the bone 3 mm to 4 mm above the base of the pyriform aperture, and use a gentle two-tap technique to advance the osteotome gradually. Angle the osteotome in a posterior and cephalic direction initially, and then adjust the osteotome so that the cutting edge travels toward a point medial to the inner canthus of the eye. This creates the typical high-to-low-to-high lateral osteotomy . Control the cutting edge by palpation with the thumb or fingers of the nondominant hand as the osteotome travels toward the inner canthus. When the osteotome approaches the level of the inner canthus,
67
68 RHINOPLASTY DISSECTION MANUAL
Figure 1. Fading medial osteotomies. Place an osteotome Figure 2. Lateral osteotomies should be started from a point flat against the septum with the edge facing laterally . Control 3 mm to 4 mm above the base of the pyriform aperture to a the sharp leading edge of the chisel , as it moves under the point adjacent to the inner canthus of the eye. Some rhinoskin, with the forefinger of the nondominant hand. Avoid the plasty surgeons find it helpful to mark the proposed line of the thick frontal bone. osteotomy on the skin before executing this maneuver.
rotate the osteotome clockwise on the patient' s right side and counterclockwise on the left side. This will normally fracture the nasal bone inward creating a controlled backfracture. It may be necessary to complete the fracture with thumb pressure .
INTERMEDIATE OSTEOTOMIES
An osteotomy between the medial and lateral osteotomies is occasionally indicated. Specific indicat ions include the abnormally contoured nasal bone that is either excessively convex or concave. Intermediate osteotomies are most effective for decreasing the curvature of an excessively convex nasal bone. The intermediate osteotomy allows recontouring of the nasal bone for correction of the severely deviated bony vault. This osteotomy is performed before the lateral osteotomy. A 2-mm transcutaneous osteotomy performed midway up the nasal bone is typically used to complete the intermediate osteotomy .
PEARLS .
• Medial osteotomies are performed to control the backfracture of the nasal bones after lateral osteotomies. If a large dorsal-hump removal was performed, leaving an open roof, it may not be necessary to perform medial osteotomies.
• High-to-low-to-high lateral osteotomies are performed to leave a small triangle of bone at the base of the pyriform aperture and. prevent medialization of the inferior turbinate. "
• The dorsal nasal septum at the level of the bony vault must be midline to allow symmetric medialization of the nasal bones; If there is difficulty medializing the nasal bones, a blade handle can be used to shift the bony septum to the midline with the nasal bones : . '
• If agreenstick fracture is noted, a transcutaneous 2-mm osteotome can be used to complete the backfracture and infracttire the nasal bone,
• Greenstick fractures are acceptable in older patients .
. I __ ~m
~ III ...1" I
Osteotomies 69
REFERENCES
I. Tardy ME. Rhinoplasty: the art and the science. Philadelphia: WB Saunders, 1997. 2. Larrabee WF Jr. Open rhinoplasty and the upper third of the nose. Facial Plast Surg Clin North Am 1993; 1:
23-28. 3. Johnson CM Jr, Toriumi DM. Open structure rhinoplasty. Philadelphia: WB Saunders, 1990. 4. Murakami CS, Larrabee WF. Comparison of osteotomy techniques in the treatment of nasal fractures. Facial
Plast Surg 1992;8:209-219. 5. Farrior RT. The osteotomy in rhinoplasty. Laryngoscope 1978;88: 1449. 6. Thomas JR, Griner NR, Remmler DJ. Steps for a safer method of osteotomies in rhinoplasty. Laryngoscope
1987;97:746-747.
8
Spreader Grafts
Spreader grafts may be placed endonasally or via the external rhinoplasty approach. If endonasal placement of spreader grafts is done in this dissection, undertake this before hump reduction and osteotomies.
Through a small (5-mm) mucosal incision near the anterior septal angle, develop a precise subperichondrial pocket along the length of the cartilaginous dorsum near the junction of the dorsal septum and upper lateral cartilage (Fig. 1). A Cottle or Freer elevator can be used to elevate the subperichondrial tunnels. Special care must be taken to get into the subperichondrial plane; otherwise, the mucosa may tear. Additionally, avoid pushing the elevator through the septum to the other side. Fashion rectangular spreader grafts that extend from the osseocartilaginous junction to the internal nasal valve where the upper lateral cartilage meets the dorsal septum. Appropriate thickness can be determined to achieve the desired functional effect without causing excessive widening, usually I mm to 3 mm in thickness. Experience is required to develop reliable surgical judgment regarding the appropriate width and length of spreader grafts. Insert the grafts into the precise subperichondrial tunnels, taking great care to preserve the mucosa (see Fig. 1).
[Note: After placing endonasal spreader grafts, return to Chapter 6 and perform hump excision and then osteotomies. To exam.ine the precise pocket that was made before hump removal, separate the upper lateral cartilage from the septum, as described below and illustrated in Fig. 2.]
Division of the upper lateral cartilages from their attachment to the dorsal septum is undertaken in the submucoperichondrial plane (see Fig. 2). This may be done before hump excision, or in cases in which no hump excision is necessary. Alternatively, this maneuver may be undertaken after hump excision. Again, great care should be taken to preserve an intact mucoperichondrium.
The accompanying figures (Figs. 2 through 6) illustrate placement of spreader grafts through the external rhinoplasty approach. At this point, the dissector should have undertaken hump reduction and osteotomies. (If hump removal has not been completed, return to Chapter 6). Spreader grafts are placed into pockets between upper lateral cartilage and dorsal septum (Figs. 3 and 4). A typical graft extends from the osseocartilaginous junction to the anterior septal angle. The spreader grafts are secured with absorbable suture [we recommend 5-0 polydioxanone suture (PDS), Monacryl, or other similar suture]. The spreader
71
72 RHINOPLASTY DISSECTION MANUAL
A
C
B
D
Figure 1. A-D: Placement of spreader grafts via endonasal approach. A: Mucoperichondrial incision down to the cartilage. B: Careful elevation of subperichondrial tunnel. C: Spreader grafts . D: Insertion of spreader grafts .
73 Spreader Grafts
D
E,F G
Figure 2. Division of the upper lateral cartilages from their attachment to the dorsal septum in the submucoperichondrial plane. Great care should be taken to preserve an intact mucoperichondrium.
A
B c Figure 3. A: Spreader grafts are placed into a pocket between upper lateral cartilage and dorsal septum. A typical graft extends from the osseocartilaginous junct ion to the anterior septal angle. 8, C: A spreader graft has been carved and is positioned between the dorsal septum and upper lateral cartilage.
B,
Figure 4. A-C: Bilateral spreader grafts in submucoperichondrial pocket between upper lateral cartilage and septum.
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, ,; ~~I • I
75 Spreader Grafts
Figure 5. Spreader grafts may be secured first with ab Figure 6. Spreader grafts sutured into position. Several horsorbable suture to the septum to stabilize them in position. izontal mattress sutures secure the spreader grafts and up(We recommend 5-0 PDS, or other similar suture). per lateral cartilages . A needle of adequate size (such as a
PS-2) facilitates engaging all structures (upper lateral cartilage-to-spreader graft-to-septum-to-spreader graft-to-upper lateral cartilage) in a single pass. Note how this suture passes through the dorsal edge of the upper lateral cartilage.
grafts may be secured first to the septum to stabilize them in position (Fig. 5). Alternatively (and commonly), simply engage all structures (upper lateral cartilage-to-spreader graft-toseptum-to-spreader graft-to-upper lateral cartil age) with a single mattress suture (Fig. 6). An additional horizontal mattress suture may be necessary to secure the spreader grafts and upper lateral cartilages in position . A needle of adequ ate size (such as a PS-2) facilit ates engaging all structures in a single pass (Fig. 6). Do not cinch down the mattress sutures too tightly or inferiorly, or else the upper lateral cartila ges may actually be forced mediall y.
SPREADER GRAFTS
In the absence of other causes of nasal obstruction , the nasal valve and nasal valve area constitute the flow -limit ing segment of the nose. The nasal valve is bounded by the caudal border of the upper lateral cartilage and the nasal septum, which join at an angle of 9 degrees to 15 degree s in the normal Caucasian nose (Fig. 7). A valve fulfills the definition of a movable structure that regulates the flow of gas or fluid. The nasal valve area includes the cross-sectional area described by the nasal valve and is affected by the in ferior turbinate, the caudal septum, and the tissues surrounding the pyriform aperture (Fig. 7). The nasal valve area is con sidered to be the location of the least cross-s ectional area in the nose and is believed to regulate significantly both nasal airflow and resistance and the velocity and shape of the air stream. The nasal valve area is the major flow -resistive segment of the nasal airway (I ).
An overnarrow nose in the middle third, whether congenital or (more commonly) the consequence of previous surgery or trauma, requires cartilage graft augmentation to improve the airway and restore aesthetic balance. Examination may reveal an overnarrow an
76 RHINOPLASTY DISSECTION MANUAL
Figure 7. Nasal valve and nasal valve area.
gle at the nasal valve area, medi al coll apse of the valve on even modes t inspiration, or collapse of the upper lateral cartilage against the septal wall , effecti vely compromising the airway. Spreader graft s act as spacers between the upper lateral cartilage and septum, correcting an overnarrow middle vault and internal nasal valv e or preventing excessive narrow ing in the high-risk patient (2-10).
A submucoperichondrial tunnel on one or both sides of the dorsal aspect of the septum may be prep ared by elevating the mucoperichondrium bridging the upper lateral cartilages to the septum. This dissection provides a space to be filled by a cartilage graft insinuated into the pocket, lateralizing the upper lateral cartil age(s), improving the airway and effectively widenin g, when indic ated , the appearance of the middle third of the nose. In our experience, spreader grafts are more effective when the fibrous connections between the dorsal septum and upper lateral cartilage are left intact. Application of the spreader grafts creates a cantilever effect and aids in lateralizing the upper lateral cartilage to provide maximal airway improvement.
Whereas spreader grafts may be comfortably carried out through traditional endonasal techniques (2), in more complex recon structi ons, particularly complicated by multiple abnormalities, an external rhinopl asty approach may facilitate accurate dissection and graft suture fixation (6) .
When the T-shaped configuration (horizontal exten sion) of the nasal septum is resected with dorsal-hump remov al, narrowing of the middle nasal vault may be problematic in the high-ri sk patient. Identifying the high -risk patient during initial preoperative analy sis is essential to the prevention of excessi ve narrowing of the middle nasal vault with internal nasal valve collapse. An anatomic variant referred to as the "narrow-nose syndrome" has been described (2,6). Short nasal bones, long weak upper lateral cartilages, thin skin, and a narrow projecting nose pred ispose to middle vault collapse . A large en bloc hump removal should be avoided, as the T-sh aped horizontal support of the nasal septum is eliminated and the intran asal mucosa (which provides support to the upper lateral cartilage) is at risk of injury . Regardles s of the approach to the middle vault, keepin g the intrana sal mucosa intact with execution of profile alignment (dorsal-hump removal) helps maintain important support of the upper lateral cartilages (see Chapter 6, Fig. 5). This can be achieved by dissectin g submucosal tunnels and freeing the upper lateral cartilages from the septum before cartil aginou s hump remov al. Alternatively, conservative hump excision followed by millimeter-by-mill imeter shaving of the upper later als under direct vision preserves the intranasal mucosa.
Coll apse of the middle nasal vault may highlight the caudal edges of the nasal bones to produce the characteristic "inverted V" deformity (Appendix G) .
When the dorsal hump has been taken down and the upper lateral cart ilages appear destabilized , such as in the high-risk patient, suturing the upper lateral cartilages back to the septum can be helpful to prevent middle nasal vault collapse. Spreader graft s applied between
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,tl
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; "111\
77 SpreaderGrafts
the nasal septum and upper lateral ca rtilages prevent excessive narro win g of the nose and pre serve an adequate nasal valve. An external rhinoplasty approach may faci litate accurate graft-suture fixa tion in this setting. These precautionary maneuvers are not necessary in all cases but may prevent problems in the high-risk pati en t (6) .
Commo nly performed surg ical maneuvers can result in loss of support to the midd le vault. Cephalic him (volume reduction) of the lateral crura disrupts the scro ll (rec urvature) and frees the cauda l margi n of the upper lateral cart ilage . Lateral osteotomies may further medialize the upper lateral cart ilages . The upper lateral car tilages can fall toward the narrowed dorsal sept al edge, producing narrowing of the middl e vault and internal valvular collapse. In the majority of patients, the combi nation of these maneuvers will not result in a problem; however, in high-ri sk patients (narrow-nose syndrome), this combination of maneuvers may contri bute to excessive narrowin g of the middle vault with internal valve co llapse.
W hen spreader grafts are used, appropria te spreader-graft thickn ess will achieve the desired functional effect wi thout causi ng overwidening . Great care should be taken to avoid overwidening if poss ible. Experi ence is required to deve lop reliable surg ical judgment regarding the appropriate width and length of spreade r grafts. Careful palp ation of both upper lateral cart ilages can aid in ver ifying symmetry of the middle nasal vaults.
Spreader grafts are usually 1 mm to 3 mm in thickness . It is generally better to use thin ner spreader grafts because if the midd le vault is too wide, rev isio n surgery will be necessary. After spreader grafts are secured in pos ition via the externa l app roach, or if they are placed endonasa lly after dissect ion of the soft-tissue enve lope , the middl e-vaul t width can be assessed by inspect ion and palpa tion . The middle vault should be no wider than the bony vault and nan-ower than the nasal tip. If excessive width or asymm etry is noted, the grafts should be repositioned or narrowed, Over time, this area of the nose tend s to nalTOW as edema resolves and sca r contracture pulls the upper lateral cartilages medially.
Asy mmetry of the middle nasal vau lt may at times be addressed with the placement of a unilateral spreader gra ft , or alterna tive ly, with the placement of sprea der grafts of unequ al thickn ess (Fig . 8) (10). In most cases, we prefer to use bilateral spreader grafts to splint deviations of the dorsal septum and preven t worsening of the dorsal septal deviation.
A variety of other maneuvers are at the surgeon ' s disposal in addressing the middle nasal vault. Onlay cartilage wafer grafts, derived from the sep tum or ea r, effective ly efface and imp rove middle-third depression s, but may be used to improve aes thetics only when airway blockage does not exist as a co nsequence of midd le-va ult co llapse . Ca reful preop erati ve analysis should determine the need for other supportive and reco nstruc tive
B
Figure 8. Spreader grafts may be applied unilaterally or asymmetrically to camouflage asymmetry of the middle nasal vault.
-"I:
t~ . _ -'':;'!fi.
78 RHINOPLASTY DISSECTION MANUAL
Figure 9. Coronal sinus computed tomography scan in a patient with nasal obstruction, illustrating obstructing concha bullosa.
maneu vers, such as conchal cartilage grafts to restore support to a collapsed lateral nasal wall. External valve collapse and the potential need for alar batten grafts also should be evaluated.
PEARLS
• If there is difficulty in spreader-graft placement by using an external approach; check the expo sure. A common mistake is a failure to carry the marginal incision and dissection over the lateral crura laterally enough, limiting exposure. Extending this incision and dissection appropriately will improve exposure of the middle . nasal vault and greatly facilitate spreader-graft placement.
• Double check middle-vault width and symmetry after applying spreader grafts. Careful palpation will allow preci se assessment of middle-vault width.
• Spreader grafts applied into preci se submucosal tunnels iritroduce bulk under the intact connection between the upper lateral cartilage and dorsal septum. The spreader graft creates a cantilever effect and effectively .lateralizes the collapsed upper lateral cartil age.
• When securing spreader graft s via suture fixation, gently stretch the upper lateral cartilage toward the anterior septal angle to ensure that they are not buckled. The suture will place gentle traction on the upper lateral cartilages to prevent buckling. After completing suture fixation, inspect the upper lateral cartilages to be sure that they are not buckled (6) . . .
. • In considering nasal obstruction, acomplete evaluation is critical. Causes of nasal obstruction include allergic rhinitis, chronic sinusitis; rhinitis med icamentosa, nasal polyps, deviated septum, internal and external nasal-valve collapse, and oth- . ers. One commonly overlooked cause of nasal obstruction is a concha bullosa, or' aerated middl e turbinate (Fig. 9), which can be most easily recognized on nasal endos~opy or coronal computed tomography scan. .
REFERENCES
I. Tardy ME. Surgical anatomy of the nose. New York: Raven, 1990. 2. Sheen JH. Spreader graft: a method of reconstructing the roof of the midd le nasal vault following rhinoplasty.
Plast Reconstr Surg 1984;73:230-237.
79 Spreader Grafts
3. Goode RL. Surgery of the incomp etent nasal valve. Laryngoscop e 1985 ;95:546-555 . 4. Johnson CM, Toriumi DM. Open structure rhin oplasty. Philadelphi a: WB Saunders, 1990. 5. Toriumi DM , Johnson CM . Open structure rhinoplasty: featured technical points and long-term follow-up .
Facial Plast Surg Clin North Am 1993 ; I :1-22. 6. Torium i DM . Management of the middle nasal vault in rhinoplasty . Oper Tech Plast Reconst r Sur g 1995 ;2:
16-30. 7. Constantian MB, Clardy RB. The relativ e importanc e of septal and nasal valvular surgery in correcting air
way obstruction in primary and secondary rhinoplasty. Plast Reconstr Su rg 1996;98:38-54. 8. Te ichgrae ber JF, Wainwri ght DJ. The treatment of nasal valve obstructi on. Plast Reconstr Surg 1994;9 3:
1174-11 84. 9. Aiach G. Atlas de rhinoplastie. Paris: Masson , J 989:74-85.
10. Toriurni DM, Ries WR. Innovativ e surgical managem ent of the crooked nose. Facial Plast Surg Clin North A/11 1993;1:63-78.
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9
Surgery of the Nasal Tip
EXERCISES (Appendix F)
Placement of Columellar Strut
The placement of a rectangul ar cartil age strut between the medial crura can improve tip support and augment tip projection. A columellar strut also can be used to correct buckled medi al or intermediate crura or to increase columellar show. The strut may be placed by using the externa l approach or into a precise pocket via the endonasal approach.
Placement of Columellar Strut via an External Rhinoplasty Approach
The area between the medial crura is dissected to create a pocket to place the strut. The rectangular cartilage strut typically measures 8 mm to 12 rnm in length, 3 mm to 4 mm in width, and 1 mm to 2 mm in thickness. The strut is most typically fashioned from harvested septal cart ilage, but also, when necessary, from auricular cart ilage, and at times from rib cartilage. The strut is positioned so that it sits above (without extending to) the nasal spine (Fig. 1). It is preferable to leave a small soft-tissue pad between the strut and the nasal spine. The strut should not extend above the intermediate crura . It is secured to the medial crura with several absorbable mattress sutures (e.g., 4-0 plain gut, Keith needle) placed through the vestibular skin. Asymme tries of the lower lateral cartilage (LLC) may be improved with placement of the strut (Fig. 2). Asymmetry of the tip may be created if the medial crura are asymmet rically sutured to the strut (Fig. 3), or if an overlong strut extending beyond the nasal spine shifts to the side of the nasal spine, thereby causing a deviated nasal tip (Fig. 3) (1,2).
Placement of Columellar Strut via an Endonasal Approach
A small incision is made through the vestibular skin and ipsilateral medial crus (Fig. 4). Scissor dissecti on creat es a precise pocket through this small incision (Fig. 5). The col
81
c D
E F
Figure 1. Placement of columellar strut. A, B: The strut sits above (without extending to) the nasal spine, and it should not extend above the intermediate crura. C-F: A columellar strut may be placed via the external rhinoplasty approach . With proper exposure achieved (C), dissection of a pocket between the medial crura is undertaken (0) . The carved columellar strut is placed in the pocket, as described earlier (E) and secured with interrupted 4-0 plain gut on a straight septal (Keith) needle (F).
82
83 Surgery oj the Nasal Tip
c D
Figure 2. A-D: Asymmetries of the lower lateral cartilage may be improved with placement of the strut.
A B
Figure 3. Asymmetry may be created if the medial crura are Figure 4. Placement of columellar strut via an endonasal apasymmetrically attached to the strut (A), or if an overlong strut proach. First, an incision is made through the vest ibular skin extending beyond the nasal spine "slips" to the side of the and ipsilateral medial crus. nasal spine, thereby causing a deviated nasal tip (8).
84 RHINOPLASTY DISSECTION MANUAL
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Figure 5. Scissor dissection creates a precise pocket. Figure 6. The columellar strut is inserted into the precise pocket.
umellar strut is inserted into the preci se pocket (Fig. 6) and is manipulated into proper position (Fig . 7). A 5-0 chromic mattress suture can be used to fix the strut between the medial crura . The incision is closed with a single absorbable suture (3).
Identify the Dome
Identify the dome and approximate the lateral and medial crura at the dome with a pair of multitoothed Brown-Adson forceps. The line of the dome should be at approximately 30 degrees to the sagittal plane .
Figure 7. Completed placement of columellar strut via an endonasal approach.
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85 Surgery oj the Nasal Tip
Reduce the Crural Volume and Rigidity: Complete Strip
Identify the scroll region, the cephalic border of the LLC (Fig. 8). Excise the cephalic portion of the LLC by making an incision parallel to the caudal margin with the 15 blade and then peeling off the cephalic portion , leaving the vestibular skin behind. The line of incision parallel s the caudal margin of the LLC. Leave at least 7 mm to 9 mm of intact cartilage . This preserves an intact strip of cartilage from the feet of the medial crura to the most lateral part of the lateral crus. This will produce conservative narrowing of the nasal tip.
B
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Figure 8. Cephalic resection of lateral crura of lower lateral cartilages.
86 RHINOPLASTY DISSECTION MANUAL
Accentuate the Tip
Now apply domal/transdornal suture s as outlined.
Place Individual Horizontal Mattress Domal Sutures
For domal sutures (Fig . 9), a mattres s suture of 5-0 polydiox anone suture (PDS) or other appropriate suture is passed through each dome, and the knot of each mattress suture is tied between the domes. As the sutures are secured, narrowing of the tip is accomplished. An interdomal suture sets the width between the domes. If stiff nasal-tip cartilages are encountered, the surgeon should use 5-0 clear nylon instead of PDS (4-6).
Place Single Transdomal Suture
Alternatively, a single transdomal suture that traverses both domes may be placed, in lieu of two individual domal sutures and an interdomal suture (Fig . 10) (1-3) . The caudal pass should be slightly longer than the cephalic pass of the mattress suture . When the mattress suture is placed in this fashion, the caudal edge will tend to lead the cephalic edge as the suture is tightened. This creates a more favorable tip-supratip relation . If the cephalic edge leads the caudal edge of the lateral crus despite proper placement of the domal suture, a small cephalic wedge of the cartilage may be excised and the edges sutured, which repositions the cephalic edge lower in relation to the caudal edge (Fig. 11).
A,B c Figure 9. Individual horizontal mattress domal sutures. The caudal pass is slightly longer than the cephalic pass of the mattress suture . As the sutures are secured, narrowing of the tip is accomplished. An interdomal suture is placed between the two domes, securing the interdomal distance.
87 Surgery oj theNasalTip
B
C D
Figure 10. A, B: A single transdomal suture may be placed in lieu of two individual domal sutures and an interdomal suture. C-J: Patient with trapezoidal tip and broad domal angles. Transdomal suture techniques were used to improve the patient's tip triangularity as seen in preoperative (G, E, G, I) and postoperative (0, F, H, J) photographs. K-Z: Patient with trapezoidal asymmetric nasal tip. Columellar strut and transdomal suture techniques were useful to improve tip symmetry and triangularity. K, L: Preoperative frontal and base view. M, N: Graphic operative worksheet (Gunter diagram) . O-Q: Intraoperative photographs illustrating placement of columellar strut and suture techniques. R-V: Preoperative (R, T, V, X) and postoperative (S, U, W, V) photographs.
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Figure 11. If the cephalic edge leads the caudal edge of the lateral crus despite proper placement of domal suture , a small cephalic wedge of the cartilage may be excised , and the edges sutured, which repositions the cephalic edge lower in relation to the caudal edge . In this figure, one lower lateral cartilage illustrates the wedge excised, and the other illustrates the edges resutured (A). B: The effect of this maneuver on the relationship between the cephalic and caudal edge is illustrated .
A
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F
Figure 12. A, 8 : Lateral crural steal. When the horizontal mattress domal sutures take a larger bite of lateral crus, a portion of the lateral crus is "borrowed" by the medial crus . The "medial crural" 1eg of the tripod is lengthened, whereas the "lateral crural" legs of the tripod are shortened (see Appendices A and F). This results in increased projection and rotation. Tip refinement also is achieved, as with a standard domal suture. C-F: Rotation of this patient's nasal tip was achieved by using the lateral crural steal technique and by suturing medial crura back on overly-long midline caudal septum .
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Lateral Crural Steal
Lateral crural steal (Fig. 12) is an effective method for increasing tip projection and rotation (7). When the horizontal mattress domal sutures take a larger bite of lateral crus, a portion of the lateral crus is shifted mediall y. Th e " medial crura]" leg of the tripod is lengthened , where as the "lateral crural" legs of the tripod are shortened (see Appendices A and F); the result is increased projection and rotation. Tip refinement also is achiev ed, as with a standard dom al suture.
Further Refinement with Dome Division with Intact Vestibular Skin and Suture Reconstitution
We rarely divide the domes, but when this technique is performed, it is usually in the thickskinned patient. In most cases, we use some form of dome-binding suture to change tip contour (8).
Remove the transdomal sutu res to perform this maneuver. Dividing the dome by vertical incision allows further narrowing of the nasal lobule. Proje ction also can be alte red by removal of a superiorly based triangle of cartilage lateral or medi al to the vertic al incision. By excising a larger amount of car tilage along the cephalic margin of the lateral crus, the cephalic dom e can be positioned below the caud al dome (Fig . ]3 ).
B
Figure 13. Divide the dome by vertical incision. Reapproximate the divided cartilages with suture (e.g ., 6-0 PDS) to secure the position of the cartilage and reconstitute the intact strip.
96 RHINOPLASTY DISSECTION MANUAL
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Figure 14. Suture reappro ximation of divided lower lateral cartilages is undertaken with simple interrupted stitches. Mattress stitches in this situation may result in overnarrowing .
Reapproximate the divided cartilages with 6-0 PDS sutu re (Fig. 14). Th e placement of sutures to reapproximate the div ided cartilages afte r dome division secures the position of the cartilage and contributes to increa sed tip stability. Simple interrupted sutures are preferred to a mattress suture, because a mattress suture may excess ive ly narrow the tip (Fig. 14).
Note : We rarely perform dome division because we find less-aggressive techniques (dome-binding suture) very effective for mod ifying tip contour. We try to avoid dome division in patients with thin skin.
Lateral Crural Overlay
When the patient's anatomy calls for rotation and deproj ection, lateral crural overlay is one possible techn ique (Fig . 15) (7,9). The lateral crura are incised lateral to the domes. The vestibular mucosa is elev ated from the undersurface of the lateral crus , and the medial portion is overlappe d over the lateral and secured in place with sutures. When undert aking this maneuver, great care must be taken to perform it symmetrically.
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Figure 15. (left and above) A-J: Lateral crural overlay. Great care must be taken to perform this technique symmetrically.
97
98 RHINOPLASTY DISSECTION MANUAL
Tip Graft
Sutured in place, shield-shaped tip grafts typically are used to increase tip projection and change tip contour (1,2) . They also can be used to camouflage tip asymmetries. Tip grafts should be avoided in patients with thin skin.
Carve a shield-shaped tip graft from the harvested septal cartilage. The width generally varies from 8 mm to 12 mrn at the leading edge . The length varies from 8 mm to 15 mm, and thickness typically varies from I mm to 3 mm (Fig . 16). The graft is thicker at the leading edge and thinner at the base. One may consider cutting the graft larger at the leading edge to allow in situ carving once the graft is secured in position. The graft is sutured to the caudal margins of the medial/intermediate crura that have been stabilized by the suturedin-place columellar strut. An excessively thick tip graft will increase fullness in the infratip lobule .
Secure the tip graft with 6-0 PDS or Monacryl sutures (Fig. 17). Four to six sutures are usually applied. Place the lower sutures first.
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Figure 16. A-E: Tip graft width generally varies from 8 mm to 12 mm at the leading edge . The length varies from 8 mm to 15 mm, and thickness typically varies from 1 mm to 3 mm.
99 Surgery oj the Nasal Tip
B
Figure 17. A: The tip graft is sutured to the caudal margins of the medial/intermediate crura. Four to six 6-0 PDS sutures are typically placed . Place the middle sutures first. B, C: Intraoperative photographs illustrating placement of tip graft.
c
100 RHINOPLASTY DISSECTION MANUAL
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Figure 17, continued. D-K: Preoperative (D, F, H, J) and postoperative (E, G, I, K) photographs of a patient who underwent application of a tip graft . The tip graft was used to increase tip projection and provide a bidomal shape to the nasal tip. Please refer to text for a more detailed discussion of tip grafts.
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Figure 17, continued.
When placing a tip graft in a patient whose domes have been divided (and suture reconstituted ), apply the tip graft so that it camouflages the caudal aspect of the cut domes (Fig. 18), decreasing the risk that this point will be palpable or visible after surgery.
Figure 18. If a tip graft is applied in a patient with divided domes, the caudal aspect of the cut domes should be hidden behind the tip graft to decrease the risk of a palpable or visible point after surgery.
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102 RHINOPLASTY DISSECTION MANUAL
Cap or Buttress Graft
Typically, a tip graft should be projected 1 mm to 2 mm above the existing domes. In patients with thick skin and an underprojected tip, a longer tip graft can be projected 2 mm to 4 mm above the existing domes. In these and other appropriate cases, a cap or buttress graft placed behind the leading edge of the tip graft may be useful to support the graft (particularly softer, pliable auricul ar cartilage tip grafts) and to prevent excessive cephalic rotation of the graft under the tension of closure of the skin/soft-tissue envelope. Buttre ss grafts are sutured to the tip graft and both domes by using 6-0 PDS or Monacryl suture (Fig. 19). The buttress grafts should create a smooth transition from the edge of the tip graft to the caudal margin of the lateral crura (2).
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103 Surgery oj the Nasal Tip
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Figure 19, continued. E-L: Preoperative (E, G, I, K) and postoperative (F, H, J, L) photographs of two patients who had tip grafts with cap-graft placement. Cap grafts were placed to support the leading edge of the grafts , prevent cephalic rotation of the graft, and ensure a smooth transition from the edge of the graft to lateral crus.
104 RHINOPLASTY DISSECTION MANUAL
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Figure 19, cont inued.
105 Surgery oj the Nasal Tip
M N
Figure 19, continued. M, N: Intraoperative photograph illustrating tip graft with cap graft.
Alar Batten Graft
The external nasal valve is composed of the cutaneous and skeletal support of the mobile alar side-wall. Overaggressive resection of the lateral crura during rhinoplasty and the subsequent postoperative soft-tissue contraction may lead to internal and/or external nasal valve compromise. Ceph alic positioning of the lateral crura also will leave suboptimal structural support in the mobile alar side-wall (external valve collapse).
Alar batten grafts , typically of curved septal or auricul ar cartilage, placed to support the alar rim, can correct internal or external nasal-valve collapse (Fig. 20) (l0-12).
Create a precise pocket for an alar batten graft. The graft is typically placed caudal to the lateral crura at the point of maximal lateral nasal wall collapse. Fashion a graft from harvested auricular or septal cartilage, and insert it into the precise pocket. The pocket is subcutaneous and is placed at the point of maximal supraalar collapse. Auricular cartilage is preferred becau se of the curvature of the cartilage. The convex side of the graft is oriented laterall y to correct the supraalar pinching. If this pocket is too superficial, the graft may be palpable or visible . When placed via an external rhinoplasty approach, secure the graft with a suture applied medially from the graft to adjacent soft tissue or lateral crus.
106 RHINOPLASTY DISSECTION MANUAL
Figure 20. A: Alar batten graft .
B c Figure 20, continued. B, C: Intraoperative photographs illustrate location of alar batten graft placement, centered around the point of greatest weakness and concavity of the alar sidewall. The alar batten graft in this case has been fashioned with autogenous auricular cartilage.
D E
Figure 20, continued. D, E: Alar batten grafts may be placed via a precise pocket endonasal rhinoplasty approach .
107 Surgery oj the Nasal Tip
F
H
Figure 20, continued. F-T: Prima ry rhinoplasty patient with cephalic positioning of the lateral crura requiring alar batten grafts. Preoperative photographs (F-I).
G
J
Figure 20 , continued. As demonstrated on base view (J), gentle inspiration results in valve collapse .
108 RHINOPLASTY DISSECTION MANUAL
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109 Surgery oj the Nasal Tip
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Figure 20, continued. The rhinoplasty worksheet (K-L) illustrates that this patient underwent septoplasty with cartilage harvest. She underwent conservative cephalic resection. She received a columellar strut , plumping grafts , dorsal onlay grafts , spreader grafts , and alar batten grafts. Preoperative (M, 0, Q, S) and postoperative (N, P, R, T) photographs are seen here. Note the improvement in the nasal valve, best seen on base view.
Lateral Crural Grafts
Lateral crural grafts are anatomic grafts that replace excessively reduced or deformed lateral crura. These grafts are shaped like lateral crura and measure approximately 5 mm in vertical height. Auricular cartilage has the ideal curvature for lateral crural grafts. The grafts are sutured to the vestibular skin and medial or intermediate crura . Care is taken so the caudal margins of the grafts are placed symmetrically; otherwise, there may be asymmetry of the alar rims. Grafts that are too large or curved may create a bulbous tip (2) (Fig. 21) .
Figure 21. Intraoperative photograph illustrating lateral crural grafts and a shield graft. The grafts are sutured to the vestibular skin and medial or intermediate crura.
-PEARLS
Complete Strip • Although many surgeons perform cephalic trim of the lateral crura as a routine ma
neuver during rhinoplasty, some patients have flat or concave lateral crura that do not contribute to tip bulbosity. Many of these patients do not need to undergo ' cephalic trim of the lateral crura. Cephalic trim should be performed when there is fullness (bulbosity) in the supratip or supraalar region due to protrusion ofthe cephalic margin of the lateral crura. :
• The surgeon should leave 7 mm to 9 mm of lateral crus. This determination is made on a patient-to-patient basis. The strength of the lateral crura and alar sidewalls should be considered. With strong cartilages, more cartilage can be excised, and with weak cartilages, more cartilage should be preserved. . ..
• Complete strip is illustrated here via the external rhinoplasty approach but was il- '. lustrated earlier in this text via the cartilage-splitting approach (Chapter 5, Figs. 1-3). In a cartilage-splitting approach, the attachments of the lateral crura to the skin/soft-tissue envelope are undisturbed, and a complete strip of 6 mm to 8 mm should be preserved. Cephalic resection of lateral crus may also be accomplished ' via the retrograde dissection approach and via the delivery approach;
• Minimize lateral resection of the cephalic margin of the lateral crura. Change iri tip contour is primarily effected by niedial excision, and .lateral excision can contribute to valve collapse and supraalar pinching,
I' • Thin skin, strong cartilages, and bifidity is a cornmon triad that should be recognized. These patients are at higher risk for bossa formation if excessive cartilage is excised from the cephalic margin of the lateral crura (Appendix G).
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111 Surgery oj the Nasal Tip
.PEARLS, continued
Transdomal Sutures . • Tran sdomal suture placement can create excessive fullness in the infratip lobule.
The infratip lobule should be assessed after transdomal suture placement. Additionally , the lateral aspect of the lateral crura may medialize into the airway with
. placement of a transdomal suture. If this occurs, it may be necessary to apply lat- . . eral .crural strut grafts to straighten the lateral crura . On rare occasions, the lateral- ; most aspects of the lateral crura may need to be trimmed. .
• .Separate dome binding sutures are better able to correct asymmetric domes . ..
Tip Grafts • Before closure, all edges of the tip graft should be rounded off to prevent visibility
ofthe edges of the graft. • Excessively stiff tip grafts should be crosshatched on the caudal surface to allow
cephalic bending and a good double break. o Surgeons tend to make shield grafts too narrow. Most grafts should be approxi.. matelyB mm to 10 mm in width at the leading edge : In male patients, the tip grafts
are generally wider, and typically measure 10 mm to 12 mm in width at the leading edge : · . .
• Most cadaver specimens have thin, atrophic skin, so the tip graftwill tend to be more · . noticeable. Indeed, we try to avoid the use of tip grafts in patients with thin skin. • Tip grafts are ideal for camouflaging subtle tip asymmetries.
Alar Batten Grafts . • Alar batten grafts may be placed via anextemal rhinoplasty approach or into apre
cise pocket made through an endonasal incision. This graft is nonanatomic and is typically placed caudal to the lateral crura where there is maximal collapse of the lateral nasal wall and supraalar pinching.
.• If alar batten grafts are placed too far cephalic, excessive fullness over the middle vault will be noted.
• Patients should be told that there will be temporary fullness in the area of the graft. This fullness will typically decrease over a 2- to 3-month period. .
. o For maximal support, the alar batten graft should extend over.the bone of the pyriform aperture. .
REFERENCES
1. Johnson CM, Toriumi DM. Open structure rhinoplasty. Philadelphia: WB Saunders, 1990. 2. Toriumi OM , Johnson CM . Open structure rhinoplasty: featured techn ical point s and long-term follo w-up .
Facial Plast Surg CUllNo rth Am 1993; I :1-22. 3. Tard y ME . Rhin opla sty : the art and the science. Philadelphia: WB Saunders, 1997. 4. Tardy ME , Cheng E. Tran sdomal suture refinement of the nasal tip . Facial Plast Surg 1987 ;4:317-326. 5. Tardy ME, Patt BS, Walter MA. Transdoma1 suture refinement of the nasal tip: long-term outcomes. Facial
Plast Surg 1989;9:275-284. 6. Toriumi OM, Tardy ME. Cartil age suturing techniques for correction of nasal tip deformities. Oper Tech 010
lary ngol Head Neck Surg 1995;6:265- 273. 7. Konior RJ, Kridel RWH . Controlled nasal tip positionin g via the open rhinoplasty approach. Facial Plast
Surg CUn No rth Am 1993; I:53- 62. 8. Simon s RL. Vertical dome division in rhinopl asty. Otolaryngol Clin Nor th Am 1987;20:785-796. 9. Kridel RWH , Konior RJ. Cont rolled nasal tip rotati on via the lateral crural overlay technique. Ar ch Otol Head
NeckSurg 1991;117:411-415 . 10. Toriumi OM , Josen J, Weinberger MS , Tardy ME . Use of alar batten graft s for correction of nasal valve col
lapse . Arch Otol Head Neck Surg 1997;123 :802-808. II . Con stanti an MB. The incompetent external nasal valve: pathoph ysiolo gy and treatment in primary and sec
ondary rhinoplasty. Plast Reconstr Su rg 1994 ;93:919-933. 12. Con stanti an MB, Clardy RB . The relative importance of septal and nasal valvular surg ery in correcting air
way obstructi on in primary and secondary rhinoplasty . Plast Reconstr Surg 1996;98:38-54.
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Alar Base Resection
Follow the accompanying figures and text to perform alar base resections (1,2). The site of incisions and the amount, deg ree, and geometry of alar red uctions depend on
a host of anatom ic variations predetermined before and durin g surgery . Alth ough the surgeon's aesthe tic judgment will ultimately determine the site and degree of resection, a more precise surgical approach may be determined if several anatomic guidelines are assessed and integrated. Conservatism is mand atory to avoid overreduction and asy mmetry, conditions that are difficult to correct satisfactorily.
As the need for reduction increases, both the incision and exc ision become more extensive. Alar redu ction is a compromise operation, in which gre ater reductions exa ct the penalty of a larger scar. The surgeon must balance this compromi se with experienced aesthetic judgment and prov en scar-camouflage techniques.
Skin sutures placed acro ss the alar-facial junction often lead to permanent suture marks. Effe ctive camouflage at the alar- facial junction may be facilitated by positioning incisions I mm to 2 mm above the alar- facia l junction. Skin clo sure can be pe rformed with a cyanoa crylate adhes ive (oc tyl-2 -cyanoacrylate , Dermabond ; Ethicon , Somerville, NJ , U.S.A.).
INTERNAL NOSTRIL FLOOR REDUCTION
In patients requiring minimal alar redu ction, excision of a wed ge of epithelium and soft tissue from the nostril floor only (Fig. I) will slightly reduce the alar flare by reducing the dimension of the internal (medial) border. Although the outward curve of the ala is altered, no medial repo sitioning of the alar-facial junction is effected . The scar is effectively hidden within the nostril floor if the nostril sill is not violated. At times , the shape of the nostril sill will determine whether this approach is appropriate. Subtle, conservative , but effective improvements are possible with this approach . The dimension of the lateral alar border remains unchanged.
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Figure 1. Internal nostril floor reduction will slightly reduce alar flare.
WEDGE EXCISION OF NOSTRIL FLOOR AND SILL
Further reduction of alar flare is accompli shed by carry ing the incision across the sill into the alar- facial jun ction I mm to 2 mm above the alar-facial crease. Reduction of flare as well as slight reduction of the alar bulk is effected (Fig. 2).
ALAR WEDGE EXCISION
If the alar development is excessive and bulbous , excision of a wedge of ala at the alar-facial junction 1 mm to 2 mm above the alar-facial crease will reduce the overall bulkiness of the alar anatomy (Fig. 3). Some medial repositioning of the alae may be effected with this maneuv er. Reduction of the overall length of the alar sidewalls occurs when gen erous wedges are excised, ideal in the reduction of the alar flare created when correcting the overprojecting tip.
SLIDING ALAR FLAP
More substantial alar reduction with medial repositioning is effected with a generous incision above the alar- fac ial jun ction with various degrees of alar excision (Fig. 4). Reduction of the volume, curve, and flare of both the internal and external alar margins will result from this procedure, the extent of each dependent on the angulation of the alar incision. A backcut placed 2 mm above the alar-facial junction allows the alar flap to slide medially, narrowing the alar base signifi cantly.
A B
Figure 2. Wedge excision of nostril floor and sill conservatively reduces flare as well as alar bulk.
--
115 Alar Base Resection
A B
Figure 3. Excision of a wedge of ala at the alar-facial junction 1 mm to 2 mm above the alar-facial crease will reduce the overall bulkiness of the alar anatomy. Some medial repositioning of the alae may be effected with this maneuver.
A B
Figure 4. Sliding alar flap typically incorporates a backcut to allow the alar sidewall to advance medially.
PEARLS
. ' When performing alar base reduction, the surgeon should err onundercorrecting . the deforrnityto prevent resection of excessive tissue. Once too much tissue is excised, it is very difficult to correct ; be particularly conservative in male patients .
• Internal alar base excision can significantly decrease the internal diameter of the nostril and should be performed in a conservative manrier. When performed, usu- . ally <2 mm of tissue is removed.
• Ifan incision is made on the lateral surface of the ala, the incision should be made ,
above the alar crease to minimize scarring. A cyanoacrylate adhesive (Dermaborid; Ethicon, Somerville, NJ, U.S.A.) can be used to close the lateral alar incision.
• In the incision, the skin edges can be favorably beveled to maximize skin-edge eversion and avoid a depressed scar.
REFERENCES
1. Tard y ME, Patt BS, Walter MA. Alar reduction and sculpture: anatomic concepts. Facial Plast Surg 1993;9: 295-305.
2. Becker DG, Weinberger MS, Greene BA, Tardy ME. Clinical study of alar anatomy and surgery of the alar base. Arch Otolaryngol Head Neck Surg 1997; 123:789-795.
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Other Maneuvers
PLUMPING GRAFTS
Plumpin g grafts may be used to open up an acute nasolabial angle, improve a retracted columella, and support a deficient nasal base. Dissect a midcolumellar precise pocket to ju st above the nasal spine. Place multiple small pieces of cartilage (I rom to 2 mm), harvested from the septum or ear, in the pocket. These grafts will augment the deficient area (Fig. 1) (1,2). Plumping grafts placed below the medial crural footplates will increase support of the nasal base (Appendix F)
A,B c Figure 1. Plumping grafts may improve a retracted columella.
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CAUDAL EXTENSION GRAFTS
Caudal extension grafts have been described for use in correcting a retracted columella, overrotated tip, short nose, or to increase tip support and projection (3) (Appendix F). This graft is sutured to the caud al margin of the nasal septum and is secured between the medial crura in the midline with 5-0 buried polydioxanone suture (PDS) (Fig. 2). When suturing the caudal extension graft to the caudal septum, the caudal margin of the graft must be in the precise midline. Devi ation off the midlin e will result in a deviation of the nasal base or tip. It is critical to assess nasal projection, length, tip rotation, and alar/c olumellar relation when position ing a caud al extens ion graft. Patients should be told preoperati vely that their nasal tip will be stiffer, with loss of the norm al tip recoil.
A
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OtherManeuvers 119
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H
Figure 2. A caudal extension graft may at times be useful to correct retraction of the columella (A) . In this patient example (preoperative, B-E; postoperative, F-I) , a caudal extension graft, harvested from the patient's posterior septal cartilage, was used to address the retracted columella .
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120 RHINOPLASTY DISSECTION MANUAL
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J K
Figure 2, continued. This intraoperative sequence illustrates placement of the graft, extending beyond the caudal septum (J, K). The caudal septum in this patient was deviated toward his left, so the graft was placed to take advantage of the slight curvature of the graft to achieve a midline position.
,
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OtherManeuvers 121
L M
Figure 2, continued. With the graft in place (L), the medial crura were secured to the caudal aspect of the graft to achieve proper tip projection and to address the retracted columella (M). Special care was taken to set appropriate projection , rotation, length, and columellar show. It is critical that the caudal extension grafts be placed in the precise midline .
122 RHINOPLASTY DISSECTION MANUAL
DEVIATED CAUDAL SEPTUM
A number of maneuvers are at the surgeon ' s dispo sal in the treatment of a caudal septal deviation (4,5) . Traditional approaches include scoring the septal cartilage on the concave side, thereby relaxing the "spring" of the cartilage. This may be done as a solitary maneuver, or in conjunction with a so-called "swinging door maneuver." As illustrated in Fig . 3, a wedge of cartilage excised along the maxillary crest releases the caud al septal attachments and allows the septum to swing to the midline. The midline position may be secured with a 4-0 PDS attached to the periosteum adjacent to the oppo site side of the nasal spine.
Ethmoid bone splinting grafts or sandwich grafts also may be of benefit in this situation (6). A straight piece of bone is harvested; a large straight Keith needle may be used as a delicate hand-held drill to make holes in the bone graft. The deviated portion of cartilaginous septum may be addre ssed by scoring on the concave side, and the bone graft or grafts may then be used to splint the septum in a straighter orientation. However, use of the ethmoid bone graft in this location thickens the caudal septum and can contribute to nasal obstruction . The ethmoid bone sandwich grafts may be used to address a deviation of the dorsal septum, where the additional septal thickness caused by this graft is well tolerated (Fig. 4).
In cases of a severely deviated caudal and dorsal septum, the offending portion may be exci sed and replaced with a straight piece of cartilage, typically harvested from the septum more posteriorly (Fig. 5) (4). Suture fixation to a stable segment of cartilage attached at the osseocartilaginous junction and nasal spine will allow recon struction of an intact L-strut to support the lower third of the nose. The recon structed caudal segments can be sutured between the medial crura to set nasal length, projection , rotation, and the alar/columellar relation .
A,B
Figure 3. Deviated caudal septum, "SWinging door" maneuver.
Figure 5. A, B: Septal replacement for severe cases of deviated caudal and dorsal septum. C-T: In the first case example (preoperative photographs, C-F), a segment of caudal septum is removed (G, H) and replaced with a straight piece of septal cartilage harvested posteriorly (I, J) .
Figure 4. A splinting graft of ethmoid bone may help maintain the septum in a straighter orientation.
A
, i
B
c D
123
124 RHINOPLASTY DISSECTION MANUAL
_ __ F E
G H
Figure 5, continued.
-::: 1'lJ1
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OtherManeuvers 125
K
J
L
Figure 5, continued. As illustrated. the replacement cartilage is extended caudally and secured between the medial crura as well (K). In this case , a tip graft also was applied (L).
126 RHINOPLASTY DISSECTION MANUAL
_______........ NM
0 ..... _ p
Figure 5, continued.
Other Maneuvers 127
RQ
s T
Figure 5, continued. Preoperative (M, 0, Q, S) and postoperative (N, P, R, T) comparison . U-BB: This series of intraoperative photographs illustrates total replacement of the severely deviated caudal septum.
128 RHINOPLASTY DISSECTION MANUAL
u
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Figure 5, continued.
v
OtherManeuvers 129
......_---" z Y
AA
Figure 5, continued. The severely deviated component (U-W) is removed, along with posterior septum (X). The deviated septum is replaced with straight septal cartilage (Y-Z) harvested posteriorly. A tip graft also was applied (AA).
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130 RHINOPLASTY DISSECTION MANUAL
RIB CARTILAGE GRAFT RECONSTRUCTION OF SADDLE DEFORMITY: INTEGRATED DORSAL GRAFT/COLUMELLAR STRUT
The severe saddle-nose deformity may be treated by using autogenous rib cartilage (8,9). Harvest of rib is . escribed later. The rib graft is carved into a dorsal graft and a columellar
strut, which are interdigitated to recreate an intact L-strut (Fig. 6). This type of structural reconstruction is particularly useful when there is complete loss of septal support . If an intact nasal septal L-strut is present, onlay dorsal grafting will be sufficient to correct the deformity. Great care must be taken to adhere to the principle of "balanced cross-sectional carving" to minimize the risk of graft warping. Once in position , the domes can be sutured over the graft with a transdomal suture. An external rhinoplasty approach allows exposure for facile placement of these grafts . A tip graft allows improved tip projection and definition.
Figure 6. A, B: Severe saddle-nose deformity. Rib graft is fashioned into a columellar strut (secured to the medial crura) and a dorsal onlay graft that interdigitates with the columellar strut. C-EE: (slides) Preoperative (C-F) photographs of a patient with a severe saddle-nose deformity. She underwent application of an iliac bone graft to her nasal dorsum in the past. Lack of an intact L-strut and inadequate middle vault support resulted in descent of the graft, airway obstruction, and referral to our office for reconstruction . Base view reveals the bone graft in the left nostril and a widened columellar scar.
OtherManeuvers 131
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Figure 6, continued.
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132 RHINOPLASTY DISSECTION MANUAL
G H
J
Figure 6, continued. Graphic operative worksheet (G, H) illustrates the surgical high points. Rib graft was harvested (I, J), and exposure was achieved via the external rhinoplasty approach (K, L). A sutured-inplace columellar strut fashioned from rib graft was secured between the medial crura (M, N). A dorsal-onlay graft was carefully carved (0, P) with a notch, allowing it to interdigitate with the columellar strut.
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134 RHINOPLASTY DISSECTION MANUAL
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Figure 6, continued.
--
Other Maneuvers 135
u v
w
Figure 6, continued. The dorsal graft was placed and secured (0-T). Example from another patient illustrating interdigitation of strut and dorsal onlay graft (U). A tip graft was placed and covered with a layer of perichondri um to camouflage and soften the leading edge of the tip graft. (V, W).
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136 RHINOPLASTY DISSECTION MANUAL
x
z
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Figure 6, continued.
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Other Maneuvers 137
BB cc
DD EE
Figure 6, continued. Preoperative (X, Z, BB, DO) and postoperative (Y, AA, CC, EE) side-by-side comparison.
138 RHINOPLASTY DISSECTION MANUAL
PEARLS ·
• When placing plumping grafts, the surgeon should overcorrect because the grafts tend to settle over time. Additionally, the pocket can be gently irrigated with antibiotic solution to minimize the incidence of infection .
• When performing a caudal extension graft, the surgeon must take special care to set appropriate tip projection, rotation, length, and alar/columellar relation. Additionally, the caudal margin of the graft must be in the precise midline.
• The inferior border of the caudal extension graft should be stabilized on the posterior septal angle, soft tissue, or other supporting tissues to avoid postoperative counterrotation of the extension graft. .
• Deviations of the caudal septum can usually be corrected by crosshatching the car" tilage and other conservative maneuvers described in the text. Many cases can be . corrected by accounting for excessive length of the L-strut. Inrare cases, subtotal septal replacement may be necessary.
• When using an integrated columellar strut/dorsal graft, the surgeon must take special care to stabilize the columellar strut in the midline to avoid shifting or tilting of the columella . Placement of the dorsal graft into a precise dorsal pocket or su-: . ture fixation of the dorsal graft to the middle nasal vault will miriimize the chance . of the graft shifting to one side.
• Symmetric carving of the costal cartilage graft will minimize the chance of the graft warping over time:
REFERENCES
I . Tardy ME, Becker DG, Weinb erger MS . Il lusions in rhinoplasty. Facial Plast Surg 1995;11:117-1 38. 2. Tardy ME. Rhinoplasty: the art and the sc ience. Philadelphi a: WB Saunders , 1997. 3. Tor iurni OM. Caudal septal extension graft for correc tion of the retracted co lume lla. Ope l' Tech Otolary ngol
Hea d Neck Surg 1995;6:3 11-318. 4. Beeson WH. The nasal septum. Otolaryngol Clin No rth Am 1987;20:743- 767 . 5. To riurni DM, Ries WR. Innovati ve surg ical manageme nt of the croo ked nose. Facial Plast Surg Clin North
Am 1993;1 :63-78. 6. Met zinger SE, Boyce RG, Rigby PL, Joseph JJ, Anderson JR . Ethm oid bone sandwich grafting for caudal sep
tal defect s. Arch Otolaryngol Head Neck Surg 1994;120 :1121-11 25. 7 . Toriurni DM . Subtota l reconstru ction of the nasal septum: a preliminary report. La ryn goscope 1994 ;104:
906-9 13. 8. Daniel RK. Rhinoplasty and rib grafts : evo lving a flex ible operati ve techni que. Plast Recon str Surg 1992 ;94:
597-6 11. 9. Wang TO . Aesthetic struct ural nasal augmentation. Opel' Tech Otolaryngol Head Nec k Surg 1990 .
12
Harvest of Autogenous Tissue
HARVESTING CONCHAL CARTILAGE: ANTERIOR APPROACH
Auricular cartilage can be harvested using the anterior or posterior approach (1-6). In most cases, we prefer the anterior approach because we believe it is less traumatic, and the incision heals well if vertical mattress closure is used. If smaller cartilage grafts are needed, then we use the posterior approach.
With a marking pen, outline an incision that follows the outer edge of the cavum and cymba concha. This incision should be placed along the portion of the concha that is vertically oriented in relation to the lateral aspect of the skull (Fig. I). Use a syringe with 1% lidocaine (Xylocaine) solution with 1:100,000 epinephrine (or for the lab demonstration, water) to "hydrodissect" the skin of the concha cavum and cymba from the underlying cartilage.
Make the incision with a no. 15 blade, and elevate the skin and perichondrium from the underlying cartilage. Dissection proceeds by using appropriate scissors, and also bluntly with cotton-tip applicators. Care should be taken not to damage the soft auricular cartilage, which can tear. The dissection should stop short of the cartilage of the external auditory canal. The radix helicis should be preserved if preservation of ear position is critical. If the entire conchal bowl in excised, the auricle will usually settle closer to the head.
Dissect out the desired piece of cartilage, and leave the underlying muscle behind (perichondrium will remain adherent to the posterior surface of the cartilage), Avoiding deep dissection into the soft tissue minimizes bleeding.
Suture the circumferential incision with a 6-0 nylon running mattress suture. Alternatively, the incision may be closed with interrupted vertical mattress sutures. Special care must be taken to avoid overlap of the skin edges. Place a bolster dressing of Telfa, dental roll, or other suitable material into the concha, and suture it into position to decrease the risk of hematoma. No residual deformity of the pinna is expected with this approach.
139
140 RHINOPLASTY DISSECTION MANUAL
A
c
E
B
o
F
Figure 1.
--
141 Harvest ojAutogenous Tissue
G
K
H
J
L
Figure 1, continued. A-T: Injection hydrodissects the skin of the concha cavum and cymba from the underlying cartilage (A). The incision follows the outer edge of the cavum and cymba concha and is placed along the portion of the concha that is vertically oriented in relation to the lateral aspect of the skull (B, C). Dissection proceeds by using appropriate scissors, and also bluntly with cotton-tip applicators (D-G). The dissection stops short of the cartilage of the external auditory canal. Incise the cartilage (H, I) and dissect out the desired piece of cartilage (J, K). Achieve perfect hemostasis before closure (L). The cartilage should be handled gently to avoid tearing or damaging the soft auricular cartilage.
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142 RHINOPLASTY DISSECTION MANUAL
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143
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Harvest oj Autogenous Tissue
HARVESTING ETHMOID BONE
The perpendicular plate of the ethmoid bone and/or the vomer may be used as a splinting graft in the treatment of a deviated cartilaginous septum. Ethmoid bone may be harvested via a standard septoplasty approach.
HARVESTING RIB GRAFT
Cartilage is typically harvested (Fig. 2) from the eighth and ninth ribs or the confluence. If additional cartilage is required, the tenth rib also may be harvested. Bone may be harvested with the ninth rib if desired .
A B
Figure 2. Rib cartilage harvest. Cartilage is typically harvested from the eighth and ninth ribs. A 4 cm to 6 cm incision overlying the eighth rib allows adequate exposure (see also Chapter 11, Fig. 6). Dissection proceeds to and then through the rib perichondrium . Dissection around the rib is undertaken subperichondrially; the pleura is typically closely adherent to the perichondrium . With the donor rib completely separated from surrounding soft tissue, the graft is incised and delivered under direct vision. The surgeon may place a malleable retractor beneath the rib as it is incised.
... Figure 1, continued. Suture of the circumferential incision is shown here with a 6-0 nylon running vertical mattress suture (M-P). Alternatively, one may close the incision with interrupted mattress sutures . Place a bolster dressing of Telfa, dental roll, or other suitable material into the concha and suture it into position (0-T) to decrease the risk of hematoma.
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144 RHINOPLASTY DISSECTION MANUAL
A 4-cm to 6-cm incision overlying the eighth rib allows adequate exposure. Dissection proceeds to and then through the rib perichondrium. The muscle fibers can be separated instead of cut to minimize postoperative pain. Dissection around the rib is undertaken subperichondrially; the pleura is typically closely adherent to the perichondrium. With the graft completely separated from surrounding soft tissue , the graft is incised and delivered under direct vision . The surgeon may elect to place a malleable retractor beneath the rib as it is incised. Saline is placed in the surgical site and Valsalva or positive pressure applied to check for a pleural leak . If a pleural tear is identified, a pursestring suture closure is undertaken around a red-rubber suction catheter. The surgeon then requests a "Val salva " from the anesthesiologist. The red rubber is then removed and the suture tightened. Saline may be placed in the wound and another Valsalva undertaken while the surgeon carefully inspects for air bubbles. A standard, layered soft-ti ssue closure without a drain is accomplished. Skin edge eversion can be accomplished with everting subcutaneous sutures.
A chest radiograph is obtained in all patients after rib harvest. In the rare instance of a difficulty, the surgeon may wish to consult the appropriate surgical colleague.
HARVESTING CALVARIAL BONE
Parietal bone may be harvested (Fig. 3) through a horizontal incision (typically , 4 em to 6 em) superior to the temporal line . Typically the nondominant side is chosen. Incision to and through the perio steum, followed by subperiosteal undermining, provides proper exposure. A drill is used to outline the proposed graft (typical graft size, 1 em to 1.5 em by 4 em to 4.5 em) . A trough is drilled through the outer table to the diploe; this allows the proper angle for application of a chisel or powered oscillating saw to harvest the grafts carefully. Short controlled taps on a sharp osteotome allow increased precision and help decrease the risk of inner-table penetration and dural tear.
Patients must be cautioned preoperatively of the risk of possible dural tear and possible brain injury. Any dural entry should elicit an immediate neurosurgical consultation.
The donor site can be contoured with hydroxyapatite cement or any other biocompatible bone substitute material. The incision is typically closed in a multilayer fashion .
A
' f
B
Harvest ofAutogenous Tissue 145
oC
E F
Figure 3. Calva rial bone harvest. Parietal bone may be harvested through a horizontal incision (typically, 4 cm to 6 cm) superior to the temporal line. Typically the nondominant side is chosen (A). A drill is used to outline the proposed graft (typical graft size, 1 cm to 1.5 cm by 4 cm to 4.5 cm). A trough is drilled through the outer table to the diploe (B , 0, E). A chisel or powered oscillating saw may be used to harvest the grafts carefully (C, F-I). Narrower grafts are safer and easier to harvest.
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146 RHINOPLASTY DISSECTION MANUAL
G H
Figure 3, continued. Short , controlled taps on a sharp osteotome (H) allow increased precision and help decrease the risk of inner table penetration and dural tear.
PEARLS ·
• When harvesting auricular cartilage, the surgeon can simplify the dissection by performing local anesthetic injections in the subperichondrial plane . This will act to hydrodissect the flap and allow blunt dissection to elevate the flap.
• Special care must be taken to evert the skin edges when performing the skin closure. There will be a tendency for the dissected flap to overlap the skin on the side that was not dissected. Vertical mattress sutures are most effective for aligning the skin edges. . " . . " "
• If lateral ear position is a concern, the radix helicis can be left'intact to support the auricle and preserve lateral ear position.
• Perichondrium can be dissected off the posterior surface of the cartilage and used as tissue for camouflage or to cushion a tip graft.
• If small cartilage grafts are needed, the posterior approach can be used to harvest ear cartilage. . "" "
• If the patient has one ear that protrudes more than the other; then the cartilage should be harvested from that side: If the 'patient sleeps on one side 'of the head,
. then the cartilage should be removed from the contralateral side.. .
- -
147Harvest oj AutogenousTissue
PEARLS, continued
. H arvesting Costal Cartila ge • Palpate appropriat e-shaped cartilage, and place the incision over the rib to be har. vested. In female patients, the incision should be placed in the proximity of the inframammary crease .
• Postoperative pain can be minimized by cutting as little muscle as possible when dissecting over the costal cartilage . The muscle fibers can be bluntly dissected to expose the costal cartilage and .then retracted to perform the dissection.
• Postoperative pain can be significantly decreased by keeping the inferior ribs intact to support the rib cage . With the inferior ribs intact, the patient will have much less pain on inspiration.
•• Dissect perichondrium off cartilage, taking special care to elevate perichondrium off the inferior surface of the costal cartilage. By leaving the perichondrium intact over the pleura, there will be minimal chance of pneumothorax.
• The incision should be closed in multiple layers. After closing the muscle, fascia, . and subcutaneous tissues, evert the dermal sutures [4-0 polydioxanone suture
(PDS)] to provide prolonged support to the skin edges: The wound will remain everted for several months; however, the scar camouflage will be excellent. Patients should be informed of the temporary excess eversion of the skin edges.
• With costal cartilage for grafting, symmetric carving is essential to avoid postoperative warping.
Harvesting Ethmoid Bone .• AVOId resecting ethmoid bone high near the cribriform plate !o prevent cere
brospinal fluid leak. Use atraumatic instruments and techniques when removing the bone. .
. • The bone graft can be shaped with a burr.·
Harvesting Calvarial Bone . • Examine the curvature of the skull to determine the 1TI0st favorable shape to the
.bone to harvest the bone graft. The parietal or occipitalareas are the most common areas where calvarial bone grafts are harves ted. - .
• Create a bone trough down to the diploic layer to allow a curved osteotome to elevate the external table gently off an intact inner table. Generous irrigation is necessary to avoid damage to the bone. . .
• Narrower I 'ern to 2 ern strips of bone are easier to elevate off the inner table. • The bone defect can be filled witha bone substitute material.
REFERENCES
I. Tard y ME, Denn eny J, Frit sch MH . The versat ile cartilage autograft in reconstructi on of the nose and face . Laryngoscope 1985;95:523- 532.
2. Met zinger SE, Boyce RG, Rigby PL, Joseph JJ , Ande rson JR . Ethm oid bone san dwich graf ting for caudal septal defects. A rch Otol Head Neck Surg 1994; 120:1121-11 25.
3. Dani el RK. Rhin oplasty and rib grafts: evolvin g a flexible operative technique. Plast Recon str Surg 1992 ;94: 597--6 11.
4 . Wan g TD . Aesth etic structural nasal aug men tat ion . Opel' Tech Otolaryngol Head Neck Su rg 1990. 5. Tardy ME. Rhinoplasty: the art and the scie nce. Philadelphia: WB Saund ers, 1997. 6. Chen ey ML, Glicklicb RE. The use of calvari al bone in nasal reconstruction . Arch Otolaryng ol Head Neck
Surg 1995;121 :643-648.
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.
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13
Incision Closure, Nasal Splint, Postoperative
Considerations
CLOSURE OF THE MIDCOLUMELLAR INCISION
A single, subcutaneous 6-0 polydioxanone suture (PDS) can be positioned in the dermal tissues to enhance skin-edge eversion and take tension off of the closure (Fig. I). This suture should provide skin-edge alignment and slight eversion . Excessive eversion will create a deformity that may require many months to resolve. The level of the skin edges must be precisely aligned with this suture; otherwise, an unsightly scar may result. If there is no tension on the closure, a subcutaneous suture may not be necessary.
To close the skin, five 7-0 nylon vertical mattres s sutures are used. The first suture lines up the apex of the inverted V. The next two sutures are angled from medial on the lower flap to lateral on the upper flap to align the closure properly . A 6-0 chromic suture is used to line up the vestibular skin at the corner of the columellar flap. This corner suture is important because aberrant healing of this corner can result in a visible notch defect.
149
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RHINOPLASTY DISSECTION MANUAL150
\8A
D
151 Incision Closure, Nasal Splint, Postoperative Considerations
E
G
F
H
Figure 1. A-D: Closure of external columellar incision . Note how the two sutures placed just off the midline are angled from medial on the lower flap to lateral on the upper flap. This will recruit redundant skin medially and prevent lateral notching of the columellar incision. Intraoperative photographs (E, F) highlight proper suture placement. When the columellar flap is elevated properly , and then closed meticulously, it should be inconspicuous, as illustrated in th is preoperative (G) and postoperative (H) base view.
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152 RHINOPLASTY DISSECTION MANUAL
Figure 2. Closure of endonasal incisions.
CLOSURE OF THE MARGINAL, INTERCARTILAGINOUS, OR TRANSCARTILAGINOUS INCISION
This incision is closed with one or two 5-0 chromi c sutures located laterally that act to advance the lateral crura slightly toward the domes (Fig. 2) This suture advancement will negate the need for an additional suture placed in the region of the domes. All sutures used to close the marginal incision must be examined to make sure there is no distortion of the nostril rim or domal region. If the nostril rim is notched, then the suture should be replaced, taking a smaller bite.
PLACEMENT OF INTRANASAL PACKS, NASAL SPLINT
Intranasal Pack
When extensive septoplasty is undertaken, or when partial turbinectomy or turbinoplasty is performed, the surgeon may wish to place a temporary intranasal pack. The goal is to provide some compression of the septal flaps and, in the case of turbin ate surgery, to decrease the risk of postoperative bleeding. There are a number of commercially available packs. An intran asal pack is typically left in place at most overnight and removed the next morning.
External Splint
A great variety of splints are commercially available. In general, after placement of an appropriate adhesive, a small rectangular strip of Telfa is placed over the nasal dorsum to facilitate removal of the splint in 5 to 7 days. Tape is applied over the dorsum and the nasal tip. A splint is carefully applied.
POSTOPERATIVE CARE
The sutures should be removed from the columellar incision after 5 days. At that point, the incision may be supported with flesh-colored steri-strips for several week s to act as antitension taping. Persistent postoperative supratip edema can be treated with subdermal in
153 Incision Closure, Nasal Splint, Postoperative Considerations
jections of triamcinolone acetonide (Kenalog; 10 mg/ml , 0.1 ml) injected into the supratip regio n of the nose. These subdermal injections should not be used in any region othe r than the supratip and should not be used more frequentl y than once every 8 weeks. Superficial injections or excessive use can result in subdermal atrophy.
PEARLS
Closure of external rhinoplasty incisions; , • If there is any tension on the closure, a midline 6-.0PDS suture can be applied to
evert the skin edges . Special care must be taken to align the skin edges properly. If the subcutaneous suture is not placed properly, the result wili likely be avisible
.scar. • The columellar incision is closed with the first 7-0 nylon vertical mattress suture ' : placed in the precise midline. The next two sutures are placed just off midline and ,' , are angled from medial on the lower flap to lateral on the upper flap. This maneu
ver will minimize the chances of creating a notch at the lateral aspect of the columellar flap .
• After closing the marginal iricision , the surgeon should check the alar margin to ensure that there is no notching of the margin . This occurs if too much mucosa is taken and acts to deform the alar rim.
'" ~ The surgeon Should examine the columellar extension of the columellar incision. In mostcases , no suture IS needed in this region becau se the vestibular skin is adequately aligned. In some cases, the vestibular skin is not aligned properly, and a 6-0 chromicsuture should be used to align the incision properly. '
Application of the Cast ' . A strip of Telfa can be applied over the dorsum to allow the cast and tape to bere
moved without lifting the dorsal skin off the underlying nasal skeleton, with l'esuIting edema.
, • The nose should be loosely taped to avoid vascular compromise. The tissues will become edematous, and if taped tootight, the tissues may become compromised,
• An Aquaplast cast can be loosely applied to the nose and left in place for 5 days . At,the time of cast removal, adhesive remover applied through the holes in thecast will loosen the tape. A blunt instrument can be used to lift the cast and tape care- .' fully off the nose. '
Postoperative Care , " • At the time of cast removal, the tape should be loosened with adhesive remover '
that is applied through the holes in the Aquaplast cast and allowed to work for 5 to 10 minutes. ' ,
, • Digital exercisescan be used in the patient who has adeviated nose. These patients ,can perform digital exercises on the nasal bones to avoid postoperative shifting of the bony nasal vault. This must be done within 10 days after surgery; otherwise, the bones wiil have started to fixate . '
• Postoperative steroid injections can be'used to correct subtle aSYrrllnetries of the nose . Triamcinolone acetonide (Kenalog; 10 mg/ml ) can be injected into the subdermal region where excessive asymmetric edema is noted. ' ,
" ', ' . ,'" "
REFERENCES
1. Toriumi OM, Johnson Cvl. Open struc ture rhinoplasty featured technical points and long-term follow-up, Facial Plast Surg Clin North Am 1993; I :1-22,
2. Johnson eM Jr, Toriumi OM, Open structure rhinoplasty. Phi ladelph ia: WB Sau nders, 1990. 3. Tardy ME, Rhinoplasty: the art and the science. Philadelphi a: WB Saunders, 1997 .
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Appendix A: Tripod Concept
TRIPOD CONCEPT
When considering the effect of surgical techniques on the nose, one may think of the tip as a tripod, with each lateral crus composing one leg of the tripod , and the paired medial crura composing the third leg (l ,2). Shortening the two "lateral crura!" legs will cause the tripod to fall in that direction, thereby "rotating and deprojecting" the tripod . Weakening these two legs (as with cephalic resection) is also said to have the same effect (although less so), as the healing forces applied to these weakened legs of the tripod will cause the tip to rotate and deproject slightly over time . Similarly, a columellar strut will strengthen the "medial crural " leg of the tripod. Use of a columellar strut to correct buckled medial or intermediate crur a may increase tip projection and rotation. Even though the tripod concept oversimplifies the dynamics of the nasal tip, it provides those with little experience in rhinoplasty with a method of predicting the effects of specific techniques.
REFERENCES
I. Ander son JR. A reasoned approach to nasal base surgery. Ar ch Otolaryngol Head Neck Surg 1984;110: 349-358.
2. McCollou gh EG. Surgery of the nasal tip. Otolaryngol Clin North Am 1987 ;20:769-784.
155
156 RHINOPLASTY DISSECTION MANUAL
Appendix B: Guide to Nasal Analysis
NASAL ANALYSIS
General
Skin quality: Thin, medium, or thick Primary descript or (i.e., why is the patient here): For example , "big," "twisted," "large
hump "
Frontal View
Twisted or straight: Follow brow-tip aesthetic lines Width: Narrow, wide, normal , "wide-narrow- wide" Tip: Deviated, bulbous, asymmetric, amorphous, other
Base View
Triangularity: Good versus trapezoid al Tip : Deviated , wide, bulb ous, bifid , asymmetric Base: Wide, narrow, or normal. Inspect for caudal septal deflection Columella : Columellarllobule ratio (normal is 2:1 ratio); status of medial crural footplates.
Lateral View
Nasofrontal angle: Shallow or deep Nasal starting point: High or low Dorsum: Straight, concavity, or conv exity; bony, bony-cartilaginous, or cartilaginous (i.e.,
is convexity primarily bony, cartilaginous, or both) Nasal length: Norm al, short, long Tip projection: Norm al, decreased , or incre ased Alar-columellar relationship: Normal or abnormal Nasa-labial angle: Obtu se or acute
Oblique View
Does it add anything, or does it confirm the other views? Many other points of analysis can be made on each view, but these are some of the vital
points of commentary.
Appendices 157
Appendix C: Aesthetic Analysis
LANDMARKS FOR ANALYSIS: POINTS
See figures on page 10.
Trichion: Anterior hairline in the midline Glabella: Most prominent midline point of forehead, well appreciated on lateral view Nasion : Most posterior midline point of forehead, typically corresponds to nasofrontal su
ture Rhinion: Soft-tissue con-elate of osseocartilaginous junction of nasal dorsum Sellion: Osseocartilaginous junction of nasal dorsum Supratip: Point cephalic to the tip Tip: Ideally, most anteriorly projected aspect of the nose Subnasale: Junction of columella and upper lip Labrale superius : Border of upper lip Stomion: Central portion of interiabial gap
Stomion superius: Lowest point of upper-lip vermilion Stomion inferiu s: Highest point of lower-lip vermilion
Mentolabial sulcus: Most posterior midline point between lower lip and chin Pogonion: Most anterior midline soft-tissue point of chin Menton: Most inferior point on chin Cervical point: Point of intersection between line tangent to neck and line tangent to sub
mental region Gnathion: Point of intersection between line from subnasale to pogonion and line from cer
vical point to menton
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. !..r.
158 RHINOPLASTY DISSECTION MANUAL
Appendix D: Surface Angles, Planes,
and Measurements: Definitions
Facial thirds Upper third: Trich ion to glabella Middl e third : Glabella to subnasale Lower third : Subnasale to menton
Horizont al fifths: Five equally divided vertical segments of the face Frankfort plane: Plane defined by a line from the most superior point of auditory canal to
most inferior point of infra orbital rim Nasofrontal angle: Angle defined by glabella-to-nasion line intersect ing with nasion-to-tip
line. Normal, 115 to 130 degrees (within this range, more-obtu se angle more favorable in fem ale, and more acute angle in male patients)
Nasofacial angle: Angle defin ed by glabella-to-pogonion line intersecting with nasion-totip line. Normal , 30 to 40 degrees
PEARL . . .
Normal proje ction with a "3-4-5" triangle described by Crumley (see below) give s a nasofacial angle of 36 degrees. .
Nasomental angle: Angle defined by nasion-t o-tip line inter sectin g with tip-to-pogonion line. Normal , 120 to 132 degrees
Relation ship of lips To nasomental line: Upper lip, 4 mm behind; lower lip, 2 mm behind line from nasal tip
to menton To subnasale-to-pogonion line: Upper lip, 3.5 mm anterior; lower lip, 2.2 mm anterior
Mentocervical angle: Angle defined by glabella-to-pogonion line intersecting with menton-to-cervical point line
Legan facial-con vexity angle : Angle defined by glabella-to-subnasale line intersecting with subna sale-to-pogonion line ; norm al, 8 to 16 degrees
PEARl;
Useftil in assessing chin deficiency, candidacy for chin implantchin ad~ancement , or other chin alterati on
Nasolabi al angle: Angle defin ed by columellar point-to-subnasale line intersecting with subnasa le-to-labrale superius line; normal , 90 to 120 degrees (within this range, more obtuse angle more favorable in female , and more acute in male patient s)
Columellar show: Alar-columellar relat ionsh ip as noted on profile view; 2 to 4 mm of columell ar show is normal
Appendices 159
Nasal projection : Anterior protrusion of nasal tip from face Goode' s method: A line drawn through the alar crease, perpendicular to the Frankfurt
plane . The length of a horizontal line drawn from the nasal tip to the alar line divided by the length of the nasion-to-nasal tip line. Normal , 0.55 to 0.60 (2,3)
Crumley ' s method: The nose with normal projection forms a 3-4-5 triangle (i.e., alar point-to -nasal tip line (3), alar point-to-n asion line (4), nasion-to-nasal tip line (5) (4).
Byrd's method : Tip projection is two-thirds (0.67) the planned postoperative (or the ideal) nasal length . Ideal nasal length in this approach is two-thirds (0.67) the midfacial height (5)
Powell and Humphries "Aesthetic Triangle": Nasofrontal: 115 to 130 degrees Nasofacial: 30 to 40 degree s Nasomental : 120 to 132 degree s Mentocervic al: 80 to 95 degree s
REFERENCES
1. Tardy ME, Walter MA, Patt BS. The overprojectin g nose: anatomic component analy sis and repair. Facial Plast Surg 1993;9:306-3 16.
2. Ridley MB. Aesthetic facial proportions. In: Papel ID, Nachlas NE, eds. Facial pla stic and reconstructive surgery. St. Louis : Mosby Year Book, 1992:99-109.
3. Crumley RL, Lanser M. Quantitative analysis of nasal tip projection. Laryngoscope 1998;98:202- 208. 4. Byrd HS, Hobar Pc. Rhinoplasty: a pract ical guide for surgical planning. Plast Reconstr Surg 1993;91:
642-654.
160 RHINOPLASTY DISSECTION MANUAL
Appendix E: Tip Support, Incisions,
and Approaches
MAJOR TIP·SUPPORT MECHANISMS
1. Size, shape, and strength of lower lateral carti lages 2. Medial crural footplate attachment to caudal septum 3. Attachment of caudal border of upper lateral cart ilages to cephal ic border of lower lat
eral cartila ges
[Nasal septum also is considered a major support mechan ism of the nose.]
MINOR TIP·SUPPORT MECHANISMS
1. Ligamentous sling spanning the domes of the lower lateral cartilages (i.e., interdomal ligament)
2. Cartilaginous dorsal septum 3. Sesamoid complex of lower lateral cartilages 4. Attachment of lower lateral cartilages to overlying skin/soft-tissue envelope 5. Nasal spine 6. Membranous septum
INCISIONS: METHODS OF GAINING ACCESS
I. Intercartilaginous 2. Transcartilaginous 3. Marginal (NOT to be confused with rim incision) 4. Transcolumellar
APPROACHES: PROVIDE SURGICAL EXPOSURE
1. Cartilage-splitt ing 2. Retrograde 3. Delivery: Marginal + intercartilaginous incision 4. External approach: Marginal + transcolumellar incision
SCULPTING TECHNIQUES: SURGICAL MODIFICATIONS
I. Complete strip (i.e., cephalic resection) or volume reduction of lateral crura 2. Incomplete strip (dome division) 3. Transdomal/dornal sutures 4. Augmentation grafting 5. Tip graft 6. Other
REFERENCES
I . Tardy ME. Rhinoplasty: the art and the science. Philadelphia: WB Saund ers, 1997. 2. Tardy ME, Toriumi DM. Philosoph y and principles of rhinopla sty. In: Cummings CW , Fredri ckson 1M,
Harker LA, et al., eds. Otolaryngology: head & neck surgery. 2nd ed. St . Louis: Mosby Year Book, 1993: 278-294 .
Appendices 161
Appendix F: Achieving Surgical Goals:
Selected Options
INCREASE ROTATION
Lateral crural steal Transdomal suture that recruit s lateral crura mediall y Base-up resecti on of caudal septum (variable effect) Cephalic resection (variable effect) Lateral crural overlay Columell ar strut (variable effect) Plumpin g grafts (variable effect) Illusions of rotation : increa sed double break, plumping grafts (blunting nasolabial angle)
DECREASE ROT ATION (COUNTERROTATE)
Full transfixion incision Double -layer tip graft Shorten medial crura Caudal extension graft Reconstru ct L-strut, as in rib graft reconstruction (integrated dorsal graft/columellar strut)
of saddle nose
INCREASE PROJECTION
Lateral crural steal (increased projection, increased rotation) Tip graft Plumpin g grafts Premaxillary graft Septocolumellar sutures (buried) Columell ar strut (variable effect) Caudal extension graft
DECREASE PROJECTION
High parti al, or full transfixi on incision Lateral crural overlay (decreased projecti on, increased rotation) Nasal spine reduction Vertical dome division with excision of excess medial crura, with suture reattachment
INCREASE LENGTH
Caudal extension graft Radix graft Double-layer tip graft Reconstru ct L-strut
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162 RHINOPLASTY DISSECTION MANUAL
DECREASE LENGTH
See increas e rotation Also, deepen nasofrontal angle Set-back and suture medial crura to midline caudal septum
TIP REFINEMENT
Cephalic resection (volume reduction) Dome-binding sutures Vertical dome divis ion, with suture reconstitution Tip graft
REFERENCES
1. Tardy ME. Rhinoplasty: the art and the science. Philadelphia: WB Saund ers, 1997. 2. Johnson CM Jr, Toriumi OM. Open structure rhinoplasty. Philadelph ia: WB Saunders, 1990. 3. Tardy ME, Toriumi OM. Philosophy and principles of rhinoplasty. In: Cummin gs CW, Fredrickson Jlvl,
Harker LA, et al., eds. Otolaryngology: head & neck surgery. 2nd ed. St. Louis: Mosby Year Book, 1993: 278- 294.
Appendices 163
Appendix G: Selected Complications
ofRhinoplasty
Bossae: A knuckling of lower lateral cart ilage at the nasal tip caused by contractural healing forces acting on weakened cartilages. Patients with thin skin, strong cartil ages, and nasal-tip bifidity are especially at risk . Exce ssive resection of lateral crus and failure to eliminate excessive interdomal width may play some role in bossae formation .
Polly beak: Postoperative fullnes s of the supratip , with an abnormal tip-supratip relation. This has several etiologies: Failure to maintain adequate tip SUpp0l1 (postoperative loss of tip projection), inadequate cartilaginous hump (anterior sept al angle) removal, and/or supratip dead space/scar formation .
Treatment depends on anatomic cause. If the cartilaginous hump was underresected, then resect additional dorsal septum. One also must ensure adequate tip support. Maneuvers such as placement of a columellar strut may be of benefit. If the bony hump was overresected, consider a graft to augment the bony dorsum. If a polly-beak is from excessive scar formation , consider triamcinolone (Kenalog) injection or skin taping in the early postoperative period, before any consideration of surgical revision.
Inverted V deformity: Inadequate support of the upper lateral cartilages after dorsal-hump remov al can lead to inferomedial collapse of the upper lateral cartilages and an "inverted V deformity." In this deformity, the caudal edges of the nasal bones are visible in broad relief. Inadequate infracture of the nasal bones is also a frequent cause. When executing hump excision, it is helpful to preserve the underlying nasal mucoperichondrium (extramucosal dissection), which provides significant supp ort to the upper lateral cartilages and help s decrease the risk of inferomedial collapse of the upper lateral cartilages after hump excision . When undertaking osteotomies after hump excision, appropriate infra cture and narrowing of the bony vault must be achieved.
Rocker deformity: If osteotomies are taken too high, into the thick frontal bone , the superior aspect of the osteotomized nasal bone may project or "rock" laterally when the bone is infractured . This is a "rocker" deformity . A 2-mm osteotome may be used percutaneously to create a more appropriate superior fracture line and correct the rocker deformity.
Dorsal irregularities: After creation of an "open roof" by hump removal, the bony margins should be smoothed with a rasp. Any bony fragments should be removed, making sure that all obvious particles are removed from under the skin/soft-tissue envelope. Failure to remove all fragments may lead to a visible and/or palpable dorsal irregularity.
Nasal valve collapse: The surgeon should recognize the existence of the internal and external nasal valve . The internal nasal valve area is bounded by the caudal margin of the upper lateral cartilage, septum, and floor of the nose. The external nasal valve refers to the area delineated by the cutaneous and skeletal support of the mobile alar wall. Excessive narrowness in either of these locations may cause nasal obstruction. Weakness at either of these locations may result in collapse with the negative pressure of inspiration, resulting in nasal airway obstruction. Nasal valve collapse is seen most often as a sequela of overresection of lateral crura or middle vault collapse. Overaggressi ve resection of the lateral crura and the subsequent postoperative soft-tissue contraction frequently leads to nasal valve compromise.
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164 RHINOPLASTY DISSECTION MANUAL
REFERENCES
J. Simons RL, Gallo JF. Rhinoplasty complications. Facial Plas t Surg cu« Nor th Am 1994;2:52 1-529 . 2. Kamer FM, Pieper PG. Revision rhinoplasty. In: Bailey B, ed. Head and Ne ck Surge ry Oto laryngolo gy.
Philadelphia: Lippincott, 1998:2663- 2676. 3. Tardy ME, Kron TK, Younger RY, Key M. The cartilaginous pollybeak: etiology, prevention, and treatment.
Facial Pla st Surg 1989;6:113-1 20. 4. Larrabee WF Jr. Open rhinoplasty and the upper third of the nose. Facial Plast Surg Clin No rth Am 1993;I:
23-38 . 5. Toriumi DM. Management of the middle nasal vault. Oper Tech Plast Reconstr Surg 1995;2: 16-30. 6. Becker DG, Toriumi DM, Gross CW, Tardy ME. Powered instrumen tation for dorsal nasal reduction. Facial
Plast Surg 1997; 13:291-297.
~MU .'
I. I,
"1
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Appendices 165
Appendix H: Adjunctive Procedures
Chin implant (Fig. 1)
~ ~ ( l ( : ~ ~
)
A B
Figure 1. Chin augmentation can be a useful adjunctive procedure to create facial balance in the patient with an underdeveloped chin, In this illustration , only the chin differs between these two line draw ings.
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166 RHINOPLASTY DISSECTION MANUAL
Submental lipectomy (Fig. 2)
A B
Figure 2. In the selected patient seeking nasal surgery, submental lipectomy is another useful adjunctive procedure to create facial balance .
REFERENCE
1. Tardy ME, Thoma s JR. Facial aesthetic surgery. Philadel phia : Mosby, J995.
Appendices 167
Appendix I: Cleft Lip Nasal Deformity
UNILATERAL CLEFT (Fig. 3)
Nasal tip: Medi al crus of LLC shorter on cleft side Lateral crus of LLC longer on cleft side (total length of cleft and noncleft side LLC are
the same) Tip-defining point on cleft side is flat and laterally displa ced
Columella: Short on cleft side Columellar base directed to noncleft side (unopposed orb iculari s muscle )
Nostril: Horizontal orientation on cleft side
Alar base: Laterally , inferiorly, and posteriorly displaced on cleft side
Nasal floor: Usually absent
Septum: Caudal deflection to noncleft side Posterior deflection to cleft side
BILA TERAL CLEFT
Figure 3. Cleft-lip nasal deform ity. Typical anatomic findings characteristic of unilateral cleft-lip nasal deformities.
- - .,• - -Tn,
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-, .- =: :lr~ r ~ - ,
II
168 RHINOPLASTY DISSECTION MANUAL
Nasa l tip: Medial crura short bilatera lly Latera l crura short bilaterally, caudally displaced Tip-defining points poorly defined and wide ly separated
Columella: Short, with a wide base
Nostri ls: Horizon tal orientation bilaterally
Alar base : Laterally, inferiorly, and posteriorly disp laced bilatera lly
Nasa l floor: Usually abse nt bilaterally
REFERENCE
J. Sykes 1M, Senders CW, Wang TD. Cook TA . Use of the open approach for repai r of secondary cleft lip nasal defo rmity . Facial Plast Surg ChI! North Am 1993 ;1: 111- 126.
Appendices 169
Appendix J: Photography Setup (1)
(Fig. A-4)
Camera: 35-mm SLR (single light reflex camera) with 105-mm macro lens Lighting: dual elect ronic flash units; overhead kicker light adds a backlighting effect that
improves picture quality and sof tens or elim inates background shadows Background: Nassau blue no. 25 Film : Kodak Ektachrome ASA 100
STANDARD RHINOPLASTY VIEWS
1:7, front al, base, lateral, oblique 1:5 and 1:3, close-up, base view
Background ~ Overhead Kicker Light
/ I \ \
8
Light Source Light Source
Camera
Figure 4. Schematic photography setup.
REFERENCE
I . Tardy ME . Brown R. Principles ofphotography in facia l plastic surgery. New York: Th ieme Publishers. 1992.
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170 RHINOPLASTY DISSECTION MANUAL
Appendix K: Indications For External
Rhinoplasty Approach (1,2)
Asy mmetric nasal tip Croo ked-nose deformity (lower two thirds of nose) Sadd le-nose deformity Cleft- lip nasal deformity Secondary rhinoplasty requiring complex structural grafting Septal -perforation repair
REFERENCES
I. l ohnson CM 1r, Toriumi DM. Open structure rhinoplasty. Ph iladelphia: WB Saunders. 1990. 2. Toriumi DM , l ohnson CM. Open struc ture rhinopla sty: featured technical point s and long-term follow -up. Fa
cial Plast Surg Clin North Am 1993; I:1-22.
Appendices 171
Appendix L: Suggested Surgical
Instruments for Rhinoplasty
1. Needle holder 2. Bayonet forceps 3. Mallet 4. Takaha shi forceps 5. Siegel retractor 6. Converse retractor 7. Hemostat (curved) 8. Hemostat (straight) 9. Small nasal speculum
10. Large nasal speculum I I . Small single skin hook 12. Small double skin hook 13. Small double skin hook 14. Medium double skin hook 15. Wide double skin hook 16. Freer/Cottle elevator 17. Joseph elevator 18. Converse scissors 19. Fomon scissors 20. Straight Stevens scissors 21. Curved Stevens scissors 22. Curved Iris scissors 23. Scalpel handle 24. Scalpel handle 25. Brown-Adson forceps 26. Brown-Adson forceps 27. Bishop-Harmon forceps 28. Bishop-Harmon forceps 29. 2.0-mm unguarded osteotome 30. 3.0-mrn straight unguarded osteotome 31. 3.0-mm straight guarded osteotome 32. 2.5-mm straight guarded osteotome 33. Medical grade sharpening stone 34. Dorsal (Rubin) osteotomes : small, medium, large 35. Rasps with tungsten-carbide inserts: 1/2, 3/4, 5/6 36. Aiache cartilage crusher 37. No. 10 Frazier tip suction
. -II.
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172 RHINOPLASTY DISSECTION MANUAL
Appendix M: List of Selected
Companies with Address/Phone Numbers
RHINOPLASTY INSTRUMENT SETS
Anthony Products , Inc., Indianapolis, IN 800 428-1610 Ell is Instruments, Inc., Madison, NJ 800 218-9082 Instruments Unlimited, Quakertown, PA 800 818-0094 Invotec, Jacksonv ille, FL 800 998-8580 Lorenz Surgical , Jacksonville, FL 800 874-7711 MicroFrance, St. Aub in, France 800-874-5797 Smith-Nephew-Richards, Madison, WI 888 395-8060 Snowden Pencer, Tucker, GA 800 843-8600 Storz Instruments, St. Louis, MO 800 325-9500 Xomed Surgical Produ cts, Jacksonville, FL 800 874-5797
ALLOPLASTIC CHIN IMPLANTS
Allied Biomedical, Paso Robles, CA 800 276-1322 Hanson Medi cal, Inc ., Kingston, WA 800771-2215 Invotec, Jacksonville , FL 800 998-8580 Porex Surgical, Inc ., College Park, GA 800521-8145 W. L. Gore & Associates, Inc., Flagstaff, AZ 800 528-8763 Xomed Surgical Products, Jacksonville, FL 800 874-5797
ALLODERM
LifeCell Corporation, The Woodlands, TX 800367-5737
DERMABOND (OCTYL-2-CYANOACRYLATE)
Ethicon, Somerville, NJ 800 888-9234
RHINOPLASTY POWER INSTRUMENTATION
Lin vatecIHall Surgical Products Group, Largo , FL 800 925-4255 United American Medical, McMinnville, TN 800 521-5002 Xomed Surgical Products, Jacksonville, FL 800 874-5797
NASAL SPLINTS
Invotec, Jacksonville, FL 800 998-85 80 Shippert Medical Technologies (Denver Splints), Englewood, CO 800 888-8663
Appendices 173
Vision Medical (Thermoplast), Peoria, AZ 800 874-5797 Xomed Surgical Products, Jacksonville, FL 800 874-5797
INTRANASAL PACKS
Invotec, Jacksonville, FL 800 998-8580 Xomed Surgical Products, Jacksonville, FL 800 874-5797
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174 RHINOPLASTY DISSECTION MANUAL
Appendix N: Selected Recommended
Literature
Adamson PA. Open rhinoplasty. In: Papel lD, Nachlas NE, eds. Facial plastic & reconstructive surgery. St. Louis: Mosby Year Book , 1992:295-304.
Anderson JR. A reasoned approach to nasal base surgery. Arch Otolaryn gol Head Neck Su rg 1984; 110:349- 358. Becker DG, Toriumi DM, Gross CW, Tardy ME. Powered instrumentatio n for dorsal nasal reduction . Facial Plast
Surg 1997;13:291-297. Becker DG, Weinberger MS, Greene BA, Tardy ME. Clinical study of alar anatomy and surgery of the alar base.
Arch Otolaryngo l Head Neck Surg 1997;123:789-795. ' Beeson WHoThe nasal septum. Otolaryng ol Clin North Am 1987;20:743-767. Byrd HS, Andochick S, Copit S, Walton KG. Septal extension grafts: a method of controlling tip project ion shape.
Plast Reconstr Surg J998 ; I00:999-1 0 IO. Byrd HS, Hobar Pc. Rhinoplasty: a practical guide for surgical planning. Plast Reconstr Surg 1993;9 I:642-654,
discussion 655-656. Cheney ML , Glicklich RE. The use of calvarial bone in nasal reconstruction . Arch Otola ryng ol Head Neck Surg
1995; 121:643-648. Constantian ME. The incompetent external nasal valve: patbophysiology and treatment in primary and secondary
rhinoplasty. Plast Reconstr Surg 1994;9 3:919-933. Constantian MB, Clardy RB. The relative importance of septal and nasaJ valvular surgery in correcting airway ob
struction in primary and secondary rhinoplasty. Plast Recons tr Surg 1996;98:38-54. Crumley RL, Lanser M. Quantitative analysis of nasal tip projection. Laryngoscope 1998;98:202-208.
• Daniel RK. Rhinoplasty and rib grafts: evolving a flexible operative tech nique. Plast Reconstr Surg 1992;94: 597-61 I.
Farrior RT. The osteotomy in rhinoplasty. Laryngoscope 1978;88: 1449. Goode RL. Surgery of the incompetent nasal valve. Laryngoscope 1985;95:546-555 . Gunter JP. The merit s of the open approach in rhinoplasty . Plast Reconstr Surg 1997 ;99: 863~867 .
Gunter JP, Clark CP, Friedman RM. Internal stabilization of autogenous rib carti lage grafts in rhinoplasty: a barrier to cartilage warping. Plast Recons tr Surg 1998; I00: 161-1 69.
Gunter JP, Clark CP, Friedman RM. Internal stabilization of autogenous rib cartilage grafts in rhinoplasty: a barrierto cartilage warping. Plast Reconstr Surg 1997; J00: J6 1-169.
Gunter JP, Friedman RM. Lateral crural strut graft: techniqu e and clinical applications in rhinoplasty. Plast Reconstr Surg 1997;99:943-955.
Gunter JP, Rohrich RJ. Management of the deviated nose: the importance of septal reconstruct ion. Clin Plast Surg 1988;15:43-55.
Gunte r JP, Rohrich RJ. Augmentation rhinoplasty: dorsal onlay graft ing using shaped autogenous septal cartilage. Plast Reconstr Surg 1990;86:39--45.
Gunter JP, Roh rich RJ, Friedman RM. Classification and correc tion of alar-co lumellar discrepancies in rhinoplasty. Plast Reconstr Surg 1996;97:643-648.
Johnson CM Jr, Godin MS. The tension nose: open structure rhinoplasty approach. Plast Reconstr Su rg 1995;95: 43- 51.
Johnson CM Jr, Godin MS. The tension nose [Letter, comment] . Plast Recons tr Surg 1996;97:246. Johnson CM Jr, Tor iumi DM. Open structure rhinop lasty . Phil adelphia: WB Saunders, 1990. Kamer FM, Pieper PG. Revision rhinoplasty. In: Bailey B, ed. Head and neck surgery otolaryngo logy . Philadel
phia: Lippin cott, 1998:2663-2676. Kasperbauer JL, Facer GW, Kern EB. Reconstructive surgery of the nasal septum In: Papal ID, Nachlas NE, eds.
Facial plastic and reconst ruct ive surg ery. Philadelphia: Mosb y Year Book, 1992:337-343. Konior RJ, Kridel RWH . Controlled nasal tip positioning via the open rhinoplasty approach. Facial Plast CUn
Nort h Am 1993;1:53-62. Kridel RWH, Konior RJ. Controlled nasal tip rota tion via the lateral crural overlay techn ique. Arch Otol Head
Neck Surg /991;117:411--41 5. Larrabee WF Jr, Open rhinoplasty and the upper third of the nose. Facial Plast Surg Clin Nonti Am 1993;1:23-38. Metzinger SE, Boyce RG, Rigby PL, Joseph Jl , Anderson JR. Ethmoid bone sandwich grafting for caudal septal
defects. Arch Otol Head Neck Surg 1994;120: 1/ 21- 1125. McCollough EG. Surgery of the nasal tip. Otolaryngol Clin North Am 1987;20 :769-784. McCollough EG, Mangat D. Systematic approac h to correction of the nasal tip in rhinoplasty. A rch Otolaryngo l
1981;J07:12- 16. Murakami CS, Cook TA, Guida RA. Nasal reconstruction with articulated irradiated rib cartilage. Arch Oto
laryn gol Head Neck 511rg 1991;117:327-330. Murak ami CS, Larrabee WF. Comparison of osteotomy techniqu es in the treatment of nasal fractures. Facial Plast
Surg 1992;8:209-21 9. Rohrich RJ, Hollier LH. Rhin oplasty with advancing age: characteristics and management. Clin Plast Surg 1996;
23:281-296.
Appendices 175
Schwartz MS, Tardy ME. Standardized photodocumentation in facial plastic surgery. Facial Plast Surg 1990;7: 1-1 2.
Sheen JH. Spreader graft: a method of reconstructing the roof of the middle nasal vault follo wing rhinoplasty. Plast Reconstr Surg 1984 ;7 3:230--237 .
Sheen JH. Tip graft: a 20 year retrosp ect ive. Plast Reconstr Surg 1993;91 :48- 63. Simon s RL. Vertical dome division in rhinoplasty. Otolaryngol Clin North Am 1987 ;20 :785-796. Simons RL, Gallo JF . Rhinoplasty complications. Facial Plast Surg Cl in North Am 1994;2:521-529. Sykes JM, Senders CW, Wang TD, Cook TA . Use of the open approach for repair of secondary cleft lip nasal de
formity.. Facial Plast Surg Clin North Am 1993;1:111-126. Tard y ME. Rhinopla sty in midlife. Otolaryngol Clin North Am 1980;13:289-303. Tardy ME. Ethics and integrity in facial plastic surgery : imperatives for the 21st century, Facial Pla st Surg 1995;
11:111-1 15. Tardy ME. Rhinoplasty: the art and the science. Philadelphia: WB Saunders, 1997. Tard y ME, Becker DG, Weinberger MS. Illusions in rhinoplasty. Facial Plast Surg 1995;11:117-138. Tard y ME, Broadway D. Graphic record-keeping in rhinoplasty: a valuable self-learning device. Facial Pla st Su rg
1989;6:108-112. Tardy ME, Brown R. Surgical anatomy of the nose. New York: Raven Press, 1990. Tardy ME, Brown R,. Pr inciples of ph otography in fa cial plastic surge/Yo New York: Thieme Publi shers, 1992. Ta rdy ME, Cheng E. Tran sdomal suture refinement of the nasal tip. Facial Plast Surg 1987 ;4:317- 326 . Tardy ME, Cheng EY, Jernstrom V. Misadventures in nasal tip surgery. Otolaryn gol Clin No rth Am 1987 ;20 :
797-823. Tardy ME, Denneny J, Fritsch MH. The versatile cartilage autograft in reconstruction of the nose and face. Laryn
goscope 1985;95:523- 532. Tardy ME, Genack SH, Murrell GL. Aesthet ic correcti on of alar-co lumellar disprop ortion. Facial Plast Surg Cl in
North Am 1995 ;3:395-406. Tardy ME, Heinrich JA, Linbeck EO. Refinement of the nasal tip. Facial Plast Surg Clin No rth Am 1994 ;2:
459-476. Tardy ME, Kron TK, Younger RY, Key M. The cartilaginous pollybeak: etiology , prevention, and treatment. Fa
cial Plast Surg 1989;6:113-120. Tard y ME, Patt BS, Waller MA. Transdomal suture refinement of the nasal tip: long-term outcomes. Facial Pla st
Surg 1989 ;9:275-284 . Tard y ME, Patt BS, Walter MA. Alar reduct ion and sculpture: anatomic concepts. Facial Pla st Su rg 1993;9:
295-305. Tardy ME , Schwartz M, Parras G. Saddle nose deformity: autogenous graft repair. Facial Plast Surg 1989;6:
121-134. Tardy ME, Thom as JR. Facial aesthetic surge ry. Philadelphi a: Mosby, 1995. Tard y ME, Tor iumi DM. Alar retraction: composite graft correction. Facial Pla st Surg 1989;6:101-107. Tard y ME, Toriumi DM. Philosoph y and princip les of rhinoplas ty. In: Cummings CW, Fredrickson JM, Harker
LA, et al., eds. Otolaryngology-head & neck surgery. 2nd ed. St Louis: Mosby Year Book, 1993:278-294. Tardy ME, Toriumi DM, Walter MA, Patt BS. The difficult nasal tip. In: Gates G., cd. Current therapy in oto
laryngol ogy-h ead & neck surgery . 1993:170-182. Tardy ME, Walter MA, Patt BS. The overprojecting nose: anatomic component analysis and repair. Fac ial Pla st
Surg 1993;9:306-316 . Tebbetts JB. Shaping and positioning the nasal tip without structural disruption: a new systematic approach. Pla st
ReconstrSurg 1994 ;94 :61-77. Tho mas JR. Steps for a safer method of osteotomies in rhinoplasty . Laryngoscope 1987 ;97:746-747 . Thomas JR. External rhinoplasty: intact columellar approac h. Laryngoscop e 1990;I00(2 Pt 1):206-208. Thomas JR, Griner NR, Remmler DJ. Steps for a safer method of osteotomies in rhinopl asty. Laryngoscop e 1987 ;
97:746-747. Thom as JR, Tardy ME. Uniform photographic documentation in facia l plastic surgery. Otolaryngol Clin North
Am 1980;13:367-3 81. Toriumi DM. Subtotal reconstruct ion of the nasal septum: a prelimin ary report. Lary ngoscope 1994; I04:906-13 . Toriu mi DM. Caudal septal extension graft for correcti on of the retracted columella. Oper Tech Otolaryn gol Head
Neck Surg 1995;6:3 11-3 18. Toriumi DM. Management of the middle nasal vault: operative techniques in plastic & reconstructive surge ry
1995;2:16-30. Torium i DM. Surgical correction of the aging nose. Facial Plast Su rg 1996; 12:205-214. Toriumi DM, Johnson CM. Open structure rhinoplasty featured tech nical points and long-term follow-up. Facial
Plast Surg Clin No rth Am 1993;1:1-2 2. Toriumi DM, Johnson CM. Mana gement of the lower third of the nose open structure rhinopla sty technique. In:
Papel 10, Nachlas NE, eds. Facial p last ic & recon stru ctive surgery. 1992:305-313. Toriumi DM, Josen J, Weinberger MS, Tardy ME. Use of alar batten grafts for correction of nasal valve collapse.
Arch Oto l Head Ne ck Surg J997;123:802-808. Toriumi DM. Mueller RA, Grosch T, Bhauacharyya TK, Larrabee WF. Vascular anatomy of the nose and the ex
ternal rhinoplasty approach. Arch Otol Head Neck Surg 1996;122:24-34. Toriu mi DM, Ries WR. Innovative surgical management of the crooked nose. Facial Pla st Surg CUn North Am
1993; I :63- 78 . Torium i DM, Sykes JM, Johnson CM. Open structure rhinoplas ty for managem ent of the non-caucasian nose .
Op er Tech Otola ryngol Head Neck Surg 1990;1:225- 233. Toriumi DM, Tardy ME. Cartilage suturing techniques for correction of nasal tip deformitie s. Op er Tech Oto
laryngol Head Ne ck Surg 1995;6:265-273. Toriumi DM, Josen J, Weinberger M, Tardy ME. Use of alar batten grafts for correction of nasal valve collapse.
Arch Otol Head N eck Surg 1997;123 :802-808. Wang TD . Aestheti c structural nasal augmentation. Op er Tech Otolaryngol Head Neck Surg 1990 .
. - r.~-~
III ' :- ~lIjl
~ ~ _ ' I , . '__
- - -
Subject Index
1'",11,,1 _U-'
{ , ~.' '"
Subject Index
A page number fo llowed by f indicates a figure.
A Aesthetic analysis, I I, 157 Aes thetic/cosmetic issues
ala r base reduction , 113 closure of midco lumellar incision, 149, 150f- 15 1f
Aesthetic triangle, 16, 20 Airway obstruction. See Nasal obstruction Ala, rhinoplasty ana lysis, 20 Alar base
cleft lip-nasal deformity bilateral, 168 unilateral, 167
resect ion, 113-11 5 alar wedge excision, 114, I ISf internal excis ions, 115 internal nostril floor reduction, 113, 114f pearls, l iS sliding alar flap, 114, 115f wedge excision of nostri l floor and sill, 114, 114f
rhinoplasty analysis, 18 Alar batten graft, 105, 106f-I09f Alar-columella relationship, 20, 2 1f Alar-facial groo ve (junction), 2f, 3f Alar flare
internal nostril floor reduction, 113, 114f wedge excision of nostril floor and sill, 114, 114f
Alar lobule, 3f, 5, 20 Alar nasalis muscle, 4f Alar sidewa ll, 2f Anatomy of nose, 1- 7
musculature, 4f nasal relationships, S, 7f nasal valve area , 6 pearls, 5-6 scroll region, 6 septum, 4f soft tissue layer, 6 surface anatomy, 2f-3f
basal view, 2f frontal view, 2f lateral view, 2f oblique view , 3f
surgical anatomy, 3f-5f basal view, 3f
lateral view, 3f oblique view, 3f
vasculature, 4f- 5f Anesthesia, infilt rative injecti on technique , 25-29
co lumella injection, 25, 26f, 28 intercartilaginous, transcartilaginous, or delivery approach, 27, 28f lateral wall of nose, 27 , 29f mul tiple injections along marginal inc ision area, 25, 26f for osteotomy, 27, 28 pearls, 27-28 soft -tissue, domal region, 25, 26f
Anomalous nasi, 4f Anterior septal angle, 3f Aquaplast cas t, application and removal, 153 Artery(ies), nasal, 4f-5f Auricular carti lage
alar batten graft , 105 harvesting, 139, 140f-1 42f, 146-147
B Beve ling of skin edges, 45 Bifidity, nasal tip, 17 Bleed ing, septoplasty, 33 Blood vessels, 4f-5f Bone infarction, 6 Bones, nasal, 3f, 5
infracture du ring os teotomy, 67-68 medialization, 68 postoperati ve margins, smoo thing with rasps, 62, 63 f postoperati ve shifting, digital exe rcises for, 153
Bossa formation, 22, 110, 163 Brow-tip aesthetic lines, 17 Bulbosity, 17 Buttress graft, 102, 102f-105f Byrd' s method, nasal projection, 16, 19, 159
C Calvarial bone, harvesting, 144, 144f-1 46f, 147 Cap graft, 102, 102f- I05f Carti lage
harvesting. See Tissue harvesting lower lateral (LLC). See Lower lateral cartilage quadrangular, 4f
-
. ,:,_. ~-i
179
180 SUBJECT INDEX
Cartilage tcontd.i sesa moid,3f upper lateral (ULC). See Upper lateral cartilage
Cartilage-sp litting approac h, 37 , 38f-39f Cephalic trim, 77,11 0 Cervi cal point, IOf, I I , 157 Ch in altera tions
augment ation , 165f alloplas tic imp lant manufac turers, 172
Legan faci al-co nvexity angle, 15 Cleft lip-nasal deformity, I67f, 167- 168
bilateral , 167f, 168 unilateral, 167, 167f
Col umell a, 2f cleft lip-nasal deform ity
bilateral, 168 unilat era l, 167
hangin g columella deformity, septoplasty, 3 1 infilt rati ve anesthetic injec tion technique, 25, 26f, 28 retr acte d, 17
caudal ex tension grafts, 118, 118f-12lf plumpi ng graft , 1l7, 117f
rhino p lasty analys is, fron tal view, l7 Co lumella-labial angle (junc tion), 2f Col umell ar artery , 4f Co lumellar flap , 47, 47f-49f
elevation of, 47, 49f infiltrat ive anesthetic inject ion technique, 27f
Columell ar-labial confluence, 18 Co lumellar -lobu lar angle, 18 Columell ar show
normal value, 15, 20 rhi noplasty analysis, 15, 158
Columell ar strut cartilage graft, 56, 81-84 dorsal on lay graft interdigit ating with. See Sadd le nose deformity placem ent, 81- 84
endonasal approach, 8 1, 83f-84f external rhinoplas ty appro ach, 81, 82f
tripod concept, 155 Complic ations, 163 Compressor muscles, 4 f Com pressor narium minor , 4 f Computed tomography (CT scan), concha bullosa , 78, 78f Co ncha bullosa, 78 , 78f Co nchal carti lage . See Auricu lar cartilage Converse sc issors, nasal dissection, 5 Jf Co rrugator muscle , 4f Crumley' s me thod, nasa l projection , 16, 159 Crus/crura, 3f. See also specific area Cyanoacrylate ad hesive
man ufactur er, 172 skin closure, 113
D Delivery approach, 40-43
deli very of LLC, 41-42, 42f-43f intercarti lag inous inc ision , 40 , 40f marginal incision, 4 1, 4 lf
Depressor muscles, 4f Depresso r septi nasi, 4f Derma bond. See Octyl-2-cya noa cry late Digital exercises, postoperat ive , 153 Dil ator muscle s, 4f Dilator naris anterio r, 4 f Dissection
auricular cartilage harvest ing, 139, 140 f-1 41 f delivery of LLC, 41-42, 42f-43f
external rhinop lasty app roach . See Ex terna l rhinop lasty approac h, nasal dissecti on
retrograde, 50 rib cartilage harvestin g, 144 septoplas ty, 31 , 32f, 33
Dome divided, tip graft in, 101, 10If divis ion. See Na sal tip, surgery iden tification , 84
Dorsal nasal artery , 4f Dorsu m of nose
cartilagi nous, exposure and incisio n for hump removal, 59, 60 f contour assessment, anes thetic injection and, 27 irregularities, pos topera tive, 163 rhinoplasty analysis, 11,20
Double break , 18-1 9 Dur al tear , parietal bone harvesting, 144
E Edema, per sistent postoperative supratip edema, 152-1 53 Elevator mus cles, 4f Endona sal approach
alar batten graft placement, 106f columellar stru t cartilage gra ft placement, 8 1, 83f- 84f incision closure, 152, 152f nasal dissection, 56 spreader grafts, 7 1, 72f
Ethmoid bone harve sting . 143, 147 perpendicular pla te, 4f splinting (sand wich) gra fts, 122, 123f
External rhinoplasty approach, 43-56 anes thesia injection techn ique , 25- 29, 26f-29f bac kgrou nd, 43 co lumellar strut carti lage graft placem ent, 8 1, 82 f dissecti on , 43 incisions for, 43 indications for , 170 integrated dorsal graf t-co lumellar strut for saddle nose deformity , 133f marg inal incision, 43, 44f
colume llar ex tension, 45, 46f, 56 nasa l dissection, 43-47
defining columell ar flap, 47 , 47f-49f elev atio n of per iosteum and expo sure of bony vault, 54-56, 55 f exci sion of cephalic car tilage, 50 exposure of cartilag inous middle nasal vau lt, 54, 54f flap elevation, 47 , 49f incision marking, 43, 44 f lateral crus, 50 , 5 1f marginal incision , 43 , 44 f, 47 midcolumellar incisio n, 43 , 44 f, 45, 45f midline dorsal dissecti on, 52 , 52f- 53f retrograde dissect ion , 50 three-poi nt counter trac tion, 50, 50f
pearl s, 56 septoplasty, 33, 34f spreader graft placeme nt, 7 1, 72f-75f transcolumellar (midcolu mella r) incision, 43
clo sure , 56 marking for, 43, 44f
F Face
Frankfort plane, 12, 13f, 158 hori zontal facial thirds, 12, 12f, 158
surface measurem ent s, 22, 23f Legan facial-conv exity angle, 14f, 15
Subject Index 181
mentocervica l angle, 14f, 15 nasofaci al angle, 12, 13f, 158 nasofrontal angle, 12, 13f, 158 nasolabi al angle, 15, 15f nasomental angle, l3f, 15, 158 surface angles, plane s, and meas urements, 12· ·16, 158-159 vertical facial fifths, 12, 12f, 158
Facet ,2f Flap, co lumellar, 47, 47f-49f Frankfort plane, 12, 13f, 158
G Glabella, zr,9, 10f, 157 Gnathion, 10f, 11, 157 Goode 's method, nasal projec tion, 15f, 16, 18,159 Grafts/grafting
alar batten graft, 105, 106f-l09f cap or buttress graft, 102, I02f-1 05f caudal extension grafts, 118, 118f-1 21f, 138 colume llar strut cartilage gra ft, 56 ethmoid bone splinting (sandwich) grafts, 122, 123f harvest of autogenous tissue, 139-147
calvarial bone, 144-146 conchal (auricular) car tilage, 139-1 42 ethm oid bone, 143 rib graft , 143-144
integrated dorsal graft -columellar strut for saddle nose defo rmity, 130-137
lateral crural grafts, I 10, II Of nasal tip, 98- 101 onlay cartil age wafer grafts, 77 plumping grafts, 117, 1l7f, 138 shield-shaped tip graft, 98 ··10I spreader grafts, 7 1-79
Greenstick frac ture, in osteotomy, 68
H Hanging columella deformity, septoplas ty, 3 1 Hemitransfixion incision, septoplasty, 3 1, 32f "Hidden columella, " l7 Hump, 17 Hump excision, 59- 66
excision of bony hump, 59, 61f expo sure and incision of cartilaginous dorsum, 59, 60f extramucosal reduction, 64 fine-tun ing modifications, 62 in high-risk patient , 76 in "narrow nose syndrome," 76 nasofrontal angle in , anes thesia considerations, 28 "open roof," 62 preop erative and postoperative views, 61f separation of ULC from dorsal septum, 64, 65f septoplasty and, 33 smoothing bony margin s, 62, 63f, 64f
Hydrodissection, auricul ar car tilage harvesting, 139, 140f
I Illusions, 22 Incisions, 160
alar base reduction surgery, 113 auricular cartilage harvesting, 139, 140f closure. See Wound clos ure external rhinopla sty approach, 43-47 intercartilaginous, 38f, 40, 40f
closure, 152, 152f marg inal, 41 ,4 1f
closure, 152, 152f, 153 columellar extension, 45 , 46f, 153
external rhinoplasty appro ach, 43 , 44f midco lumellar
closure, 149, 150f-151f, 153 external rhinoplasty approach, 43, 44f , 45 , 45f suture removal, 152
parietal bone harvesting, 144 rib cartilage harvesting, 144 septoplasty, 31, 32f transcartila ginous, 37, 38f
closure, 152, 152f Infratip lobule, 2f, 5
transdornal suture placement and, III Injection . See Anesthesia Instrumentation
rasps, 62, 63f suggested surgical instrum ents for rhinopl asty, 171
manufacturers ' address/phone numbers, 172 Intermediate crus, 3f
anesthetic inject ion, 25, 26f Internasal suture line, 3f, 6 Int ranasal pack, 152
manufacturers, 173 "Inve rted V" deformity, 76, 163
K Kenalog. See Triamcinolone aceto nide Killian incision, septoplasty, 31, 32f
L Labrale superiu s, 10f, II, 157 Lateral crus , 3f, 5
anesthetic injection, 25, 26f cephalic trim, 110 grafts, 110, II Of lateral crural over lay, 96 , 96f-97f reduction of volume and rigidity, 85, 85f transcartilaginous incision, 37
Lateral nasal artery, 4f Lega n facial-convexity ang le, definit ion, 14f, 15, 158 Length of nose
central, 18 definiti on, 18 "ideal," 19 illusions, 22 lateral, 18 rhinoplasty analys is, 11, 18-1 9, 19f surgical goa ls and options for achiev ing, 161-1 62
Levator labii alaequae nasi, 4f Lidocaine , infiltrative anesthesia techniqu e, 25-29 Lipectomy , submental, 166f Lips, rhinoplasty analysis , 14f, 15, 158 Literature recommendati ons, 174-175 LLC. See Lower lateral car tilage Lobule, 5 Lowe r lateral car tilage, 3f
asymmetries, columellar strut for, 83f cephalic resection of lateral crura, 85, 85f
L-strut integrated dorsal graft-c olumellar strut , 130-137 in septoplasty , 33, 33f
M Mattress sutures
closure of auricular cartil age harvest site, 139, 142f closure of midcolumell a incision , 149, 150f-15If spreader graft stabilization, 75, 75f
Maxilla, ascendng process, 3f
-::-.::::c::"" . -'r,-I
r ; '~-~~
182 SUBJECT INDEX
Maxillary crest, 4f Medial crura l footplate, 3f Medial crus, 3f Mentocervical angle
definition, 14f, IS , 158 Powell-Humphries "aesthetic triangle," 16
Mentolabial sulcus, 10f, II , 157 Menton, 10f, II, 157 Midcolumellar incisio n. See Incisions Mucoperichondrium , support funct ion, 59, 62f Muscles, nasal, 4f
N Naris, 3f "Narrow nose syndrome," 22
hump removal in, 76 Nasal analysis. See Rhinoplasty analysis Nasal floor, cleft lip-nasal deformity
bilateral, 168 unilateral, 167
Nasal obstruction, 18 causes , 78 concha bullosa, 78, 78f spreader grafts for, 75-78
Nasal septum. See Septum Nasal spine, 3f, 4f Nasal splint
external, 152 application and removal, 153
manufacturers, 172-1 73 Nasal starting point , 20 Nasal tip, 9, IOf, 157
acce ntuating cephalic edge leading caudal edge of lateral crus, 86, 93f dome division with intact vestibular skin and suture reconstitution,
95f, 95-96, 96f individual horizontal mattress domal suture technique, 86, 86f
lateral crural overlay, 96, 96f-97f lateral crural steal, 94f, 95 single transdo mal suture technique, 86, 89f-93f tip grafts, 98-10 1 transdomal surgical techniques for, 86-95 trapezoidal asymmetric tip, 89f-93f trapezoida l tip and broad doma l angles, 87f-89f
anterior protrusion. See Rhinoplasty analysis, nasal projection asymmetry, 81, 83f bifidity, 17 cleft lip-nasal deform ity
bilateral, 168 unilatera l, 167
deviated, 8 I , 83f grafts
alar batten graft, 105, 106f- 109f, J II cap or buttress graft, 102, I02f-1 05f caudal extension grafts, 118, 118f-1 21f in divided domes, 101, IOIf lateral crural grafts, 110, I IOf pearls, II I shield-shaped tip graft, 98- 101
narrowing, transdomal surgical techniques for, 86 projection, surgical goals and options for achieving, 16 1. See also
specific procedures rhinoplasty analysis, I I
frontal view , 17 lateral view, 18
rotation lateral crura l steal, 94f, 95
surgical goals and options for achieving, 161. See also specific procedures
support co lumellar strut cartilage graft. 56, 81- 84 major support mechanisms, 160 minor support mechanisms, 160
surgery, 81-1 11. See also specific procedure accentuate tip, 86-95 alar batten graf t, 105, 106f-I 09f, II I cap or buttress graft, 102, 102f-J 05f caudal extension grafts, 118, 118f-1 21f columellar strut cartilage graft placement, 81-84 dome division with intact vest ibular skin and suture reconstitution ,
95f, 95-96, 96f dome identi fication, 84 lateral crura l grafts, 110, 1JOf lateral crural overlay, 96, 96f-97f lateral crural steal, 94f, 95 pearls, 110-1 11 reduction of crural volume and rigidity , 85, 85f refinement, 162 sculpting techniques , 160 shield-shaped tip graft, 98-10 I
placeme nt, 98, 99f preoperative and postoperative views, 100f-IOlf size of, 98, 98f, I II
tip grafts, 98- lOI tip-defining points, zr,3f tripod concept, ISS
Nasal valve, 75, 75f co llapse, 163
ajar batten graft, 105 Nasal valve area, 6, 75, 75f Nasal vault
bony, postoperative shifting, 153 middle
asymmetry , 77, 77f collapse, 76-77 excessive narrowing , 77 exposure, 54-56 width, assessment, 77
Nasion, 2f, 3f, 9, 10f, 157 Naso facial angle
definition, 12, 13f, 158 normal values, 12 Powell-Humphries "aes thetic triangle," 16
Nasofrontal angle, 2f aesthetic ana lysis, II definition, 12, 13f, 158 in hump excision, anesthesia considerations, 28 length of nose and, J8, 19f norma l values, ]2 Powell-Humphries "aesthetic triangle," 16
Nasofrontal bone, osteotomy, 6 Nasofrontal suture line, 3f Nasolab ial angle
aesthetic analysis, 11 definition, IS, 15f, 158 length of nose and, 18, 19f normal values, 15 obtuse , septo plasty, 31
Nasomaxi llary suture line, 3f Nasomental angle
definition, 13f, IS, 158 Powell-Humphries "aesthetic triangle," 16
Nasomental line, lip relat ionships, 14f, 15, 158
Subject Index 183
Nostri l(s)
cleft lip-na sal defo rmi ty bilateral , 168
uni lateral , 167
rhinop lasty ana lys is, 18
Nostri l floo r, 3f intern al nostril floor redu ction , 113, 114f wedge excision, 114, 114f
Nostr il sill, 2f wedg e excision, 114, 114f
Notch defe ct, 149
o Octyl-z-cyanoac rylate (Derrnabond)
man ufac ture r, 172
skin closure, 113 Onlay cartilage wafe r grafts, 77
Ope rative worksheet integrated do rsal graft -columellar stru t for saddle nose deformi ty, 132f
sec on dary rhinoplasty pa tien t requiri ng alar batten graf ts, I08f trapezo ida l asym metric nasal tip, 90f
Orbicularis or is muscle, 4f Osseocart ilagino us j unction , 2f, 3f , 6 Osteotomy, 67-69
anestheti c injection , 27, 28 inter mediate , 68 lateral, 67-68, 68f
high-to-low, 67, 68f
high-to-low-to-high, 67 infracture of nasal bone, 67-68
med ial, 67, 68f nasofron tal bone, 6 pearls , 68
p
Packs/pack ing, intranasal, 152 man ufactu re rs , 173
Pain , postoperative , rib cartilage har vesting, 147 "Parenthesis" de formity, 22
Parietal bone, harvesting, 144, 144f- 146f, 147 Perichondrium , rib cartilag e barves ting, 147 Phi ltrum , 2f Photograp hy setup, 169f
Pleural leak (tear), rib carti lage harvesti ng, 144 Plumpi ng grafts, 117 , 117f, 138
Pne umo tho rax , rib carti lage harves ting , 147
Pogon io n, 10 f, II , 157 Pollybeak defor mi ty, 22 , 59 , 163
Polydioxanone suture inci sion c losure, 149 spreader graft fixa tion, 7 1
Postope rative care, 152-1 53
digital exercises, 153
persisten t supratip edema, 152-153 suture rem ova l, 152
Powell-Humphries "aesthetic triangle," 16,20
Procerus muscle , 4f Pseudohypertelorism, 17, 22
Pyriform aperture , 3f in osteotomy, 67 '.,
Q Quadrangular cartilage, 4f
R Radi x projection, 19- 20 Rasps, 62, 63 f
Rhin ion , 2f, 3f, 9, 10f, 157 sellion vs. , 6
Rhi noplasty analysis, 9-23
base view, 17f, 17-18 guide line s, II , 156
co lume llar show , IS, 158 facial planes, 12, 12f, 158
horizo ntal facial thirds, 12, 12f, 22, 23f lower two thirds surface measurements, 23f vertical facial fifth s, 12, 12f
Frank fort plane, 12, 13f, 158 frontal view, 17
guidelines, II, 156 general assessment, 16
guidelines, I I , 156
guide to, 11, 156 lab exercise: nasal ana lysis, II land mar ks, 157
points,9-1 1,I Of
surfac e ang les , plane s, and measur ements, 12- 16
lateral view , 18- 20, 19f, 2 lf guide lines , II , 156
Leg an facia l-conve xity angle , 14f, IS, 158
length of nose, 18-1 9 , 19f lip relationships , 14f, 15, 158
me ntocerv ica l angle, 14f, IS, 158 nasal proj ection , 15f, 16, 159
asse ssment, 22
Byrd 's meth od, 16, 19, 159 Crumley's method , 16, 159
Goode's method, 15f, 16, 18, 22,159 normal values, 16
nasofacial angle, 12, 13f, 158
nasofrontal angle
definitions, 12, 13f, 158 guidelines, 11, 156
nasolabial angle definitions, IS , 15f, 158
guidelines , 11, 156
naso me nta l angle, de finitions, 13f, IS, 158 obliq ue view , 20
guidelin es, I I , 156 pear ls, 20, 22
photograph ic analys is, 16 physica l examination and anatomic analysis, 16-2 1
Powell- Humphries "aes the tic triangle," 16 ski n qu alit y, 11, 156
surface angles , planes, and measurement s, defini tions, 12- 16, 158- 159 Rib carti lage (gra ft)
harvesti ng, 143f, 143-144, 147 pos tope rat ive pai n, 147
integrated dorsal graft-columellar strut for sadd le nose deformity, 130-1 37
Rocker deform ity, 6, 163
Rotation. See Nasal tip
S Saddle nose deformity, 17,22
integrated dorsal gra ft-colu mellar stru t for, 130-137
dorsal onlay graft, 133f external rh ino plasty approach, 133f graft placem ent , 134 f
graft shifting, 138 operative workshee t, 132f
pearls, 138
preoperat ive and postoperative view s, 136f- 137f
preoperative views, 13 lf
-
.: ~ -" ~, , ' : ~-'
184 Subject Index
Scars/scarring. See Aesthetic /cosme tic issues Scroll reg ion, 6, 85 Sculpting techniques, 160. See also Nasal tip, surgery Sell ion , 6, 9, 10f, 157 Sept al angle(s) , 4f , 6 Septal devi ation
caudal, 18, 122-129 ethmoid bone splinti ng (sandwich) graft s, 122 scoring septal cartilage for, 122 "swinging door" maneu ver for, 122, 122f
dorsal, ethmoid bone splinting (sandwich) grafts, 122, 123f septal replacement , 122, 123f-1 29f
partial, 122, 123f-1 27f total, l2 8f-129f
Septoplasty, 6, 31-34 anes thesia injection techn ique, 25, 27 harvesting of cartilage, 31, 33 hernitran sfixion incision with anterio r septal tunnels, 31, 32f, 33 pearJs,33
Septorhin oplasty, 33, 34f Septum , 6
anatomy, 4f caudal, 3f cleft lip-nasal deformity, 167 deviated . See Septal deviation
Sesamoid cartilage , 3f Skin
at rhinion, 20 rhinoplasty ana lysis, 11 thickne ss and quality, 22
Skin edges, beveling, 45 Skin mark ing
for osteotomy, 67 transcolu mellar (midcolume llar) incis ion, 43, 44f
Skull , parietal bone harvesting, 144, 144f-146f, 147 Sliding alar flap, 114, j 15f Soft tissue layer, 6 --Spl ints/spl inting
externa l nasal spl int, 152, 153 manufactur ers, J72- 173
Sp read er grafts , 7 1- 79 bilateral,74f / . clinical indications, 76-78 endonasa l approach, 7 1, 72f
ex terna l rhino plasty approac h, 7 1~,~:::2:-:;.5~_ ~,] f_7 ::.:f _ _ ove rwidening, 77 ' pearl s, 78
placement ',.• , endonasal approach, 71, 72f, 76 '.,'~
exposure of middl e nasal vault , 78 external rhinoplasty appro ach , 71, 72f- 75f, 76
rationale, 76 size, 71
suture fixation, 78 suture fixation (stabilization), 75, 75f
Stornion, 10f, II , 157 inferiu s, 10f, 11, 157 superius, 10f, II, 157
Subnasale, 9, 10f, 157 Sub nasale-to-pogonion line , lip relationship s, 14f, 15, 158 Suction drill , postoperative smoothing of bony margin s, 62, 64f Supraalar crease , 2f Supr atip, 2f, 9, ior, 157
anesthetic injec tion, 25 , 26 f persistent postoperative edema, 152-,153
Surgical exposu re, approaches, 160. See also specific approaches Su ture lines , 3f Sutures/suturing
auricular ca rtilage graft site, 139, l4 2f buttress grafts, 102, 102f domal suture techn iques
individual hor izontal mattress dornal suture techn ique, 86, 86f infratip lobul e after transdornal suture placement, III single transd ornal sutur e technique, 86, 89f-93f suture reapprox irnation of LLC after dome division, 95f, 95-96, 96f
inc ision closure , 149-152 spreader grafts, 7.1 , 75, 75f, 78
T Tension nose deformity , septoplasty, 31 Tissue harve sting
auricular cartilage, 139, 140f-142f calvaria l bone, 144, I44f-146f, 147 e thmoid bone , 143 pearls, 146-1 47 rib cartilage , 143f, 143-J44 septal cartilage, 31, 33
Tr ansverse nasali s muscle, 4f Triamcinolone acetonide (Ken alog), for persistent postoper ative supratip
edema , 153 Trichion , 9, lOf, 157 Tripod co ncept, 155
lateral crural steal, 94f, 95 Tunn els
septal, 3 1, 33 subperiosteal, proposed osteotomy path , 67
Two-tap technique hump excision, 59, 6lf osteotomy, 67
--~ U
JLC. See Upper lateral cartilage .Jpper lateral cartilage, 3f
disarticul ation , 54 di vision from dorsal septum, sp reader gra ft p lace ment, 73f, 74f inferomedial collapse , 59, 62f separ ation from dorsa l septum, 64, 65f
V Vasculatur e,4f-5f
W Wedge resec tion
accentuating nasal tip , cephalic edge leading cauda l edge of lateral crus, 86,93f
alar, 114, 115f nostr il floor and sill, lJ4, 114f
Wid th of nose illusions , 22 rhinoplasty anal ysis, 11, 17
Wound clos ure auricular cartilage harvesting, 142f closure of margin al, intercartila ginous, or transcartilaginous incision,
152, 152f closure of midcolum ella incision, 149 , 150f--15 If pearls, 153 rib carti lage harvest ing, 147