ITALIA - Innovazionecile...Moreover TIXOS implant line has obtained also the prestigious and severe...
Transcript of ITALIA - Innovazionecile...Moreover TIXOS implant line has obtained also the prestigious and severe...
RL E A D EI T A L I A
LEADER ITALIA s.r.l.Via Aquileja, 43/C - 20092 Cinisello Balsamo (MI) ITALY
ph. +39 02 618651 - fax +39 02 61290676
www.leaderitalia.it - [email protected]
Implantology Catalog
RL E A D EI T A L I A
l i n e
ZL-C
IMPT
13EN
2013
Certifications
The care dedicated to the production process, which matches the highest standards in implantology, has earned LEADER ITALIA the certifications ISO 9001 and ISO 13485, as well as the CE0434 mark for medical devices, that guarantee the high quality of its products.
Moreover TIXOS implant line has obtained also the prestigious and severe U.S. FDA Clearance.
*For further information visit our web site www.leaderitalia.it
LEADER ITALIA srl was founded in 1996 to manufacture components for implantology; then, on the basis of the acquired experience on implants, methods and, above all, on the implant peculiar physical problems, LEADER ITALIA has widened its production range, starting the manufacture of its own implant line. In the last few years, the Company has committed itself to scientific and technological research to project and design surfaces suited to enhance and accelerate the osseointegration process, exploring possibilities far from those offered since now by the traditional systems.
Fundamental for this achievement is the cooperation with several international Universities:
III University of Naples: Prof. G. Papaccio
University of Chieti: Prof. A. Piattelli
University of Varese: Prof. A. Macchi, Prof. C. Mangano, Prof. M. Raspanti
Universidade Guarulhos, S. Paolo: Prof. J. Shibli
University of Birmingham: Prof. R. Sammons
University of Johannesburg: Prof. U. Ripamonti.
These years of research have yielded interesting results concerning surface geometry and implant manufacturing and the several published and in press scientific articles demonstrate the revolutionary innovative solutions offered by the new engineering and manufacturing technologies applied.
A special thanks to Prof. Carlo Mangano who has been dedicated himself with passion to this extraordinary challenge in experimental researches on the new laser technology.
For their cooperation with scientific studies and researches, we thank particularly:II University of Naples - Italy (Prof. G. Papaccio), •University of Chieti - Italy (Prof. A. Piattelli), •University of Varese - Italy (Prof. A. Macchi, Prof. C. Mangano, Prof. M. Raspanti), •Universidade Guarulhos in S. Paolo - Brazil (Prof. J. Shibli), •University of Birmingham - UK (Prof. R. Sammons).•University of Johannesburg - South Africa (Prof. U. Ripamonti).•
RL E A D EI T A L I A
Implantology Catalog TiXos line © 2013 Leader Italia srl
Editing:Mariaelena Costantin, Marco Iezzi, Marco Parazzini, Patrizia Sossi, Fabio Spiniella, Elena Talpo
Graphic project:ARPe s.a.s. - Milano
Computerized images:Federico Rizzi
Printing:Arti Grafiche Torri s.r.l. - Cologno Monzese (MI)
28. Rapani M, Mangano F, Mangano C, Shibli J.A, Perrotti V, Ricci M, Piattelli A, Di Gregorio G. A prospective multicenter study on the immediate loading of mandibular overdentures supported by 4 one-piece unsplinted direct laser metal forming (DLMF) implants. Results from a 1-year follow-up report on 96 implants. Congresso Nazionale Dei Docenti Di Discipline Odontostoma-tologiche Firenze-Siena 2011
29. Mangano C, Piattelli A, Raspanti M, Mangano F, Cassoni A, Iezzi G, Shibli JA. Scanning electron microscopy (SEM) and X‐ray dispersive spectrometry evaluation of direct laser metal sintering surface and human bone interface: a case series. Lasers Medical Science 2011; 26:133–138
30. Trisi P, Carlesi T, Colagiovanni M, Perfetti G. Implant Stability Quotient (ISQ) vs direct in vitro measurement of primary stability (micromotion): effect of bone density and insertion torque.Jou. of Osteology and Biomaterials 2010; 1 (3):141‐151
31. Mangano F, Mangano C, Macchi A, Perrotti V, Iezzi G, Piattelli A. La topografia della superficie implantare nella moderna implantologia. Parte I: superfici lisce e microrugose.Italian Oral Surgery 2010; 9 n. 4:201-214
32. Mangano F, Mangano C, Macchi A, Perrotti V, Iezzi G, Piattelli A. La topografia della superficie implantare nella moderna implantologia. Parte II: superfici nanostrutturate e DLF. Italian Oral Surgery 2010; 9 n. 5: 261-262, 265-275
33. Mangano C, Piattelli A, D’Avila S, Iezzi G, Mangano F, Onuma T, Shibli JA. Early human bone response to laser metal sintering surface topography: a histologic report. Journal of Oral Implantology 2010; Vol. 36 n. 2:91-96
34. Shibli JA, Mangano C, D’Avila S, Piattelli A, Pecora GE, Mangano F, Onuma T, Cardoso LA, Ferrari Sanchez D, Aguiar KC, Iezzi G. Influence of direct laser fabrication implant topography on Type IV bone. Journal of Biomedical Materials Research Part A 2010; Vol. 93:607-614
35. Mangano C, De Rosa A, Desiderio V, d’Aquino R, Piattelli A, De Francesco F, Tirino V, Mangano F, Papaccio G. The osteoblastic differentiation of dental pulp stem cells and bone formation on different titanium surface textures.Biomaterials 2010; n. 31:3543‐3551
36. Mangano C, Shibli JA, Mangano F, Sammons RL, Macchi A. Dental implants from laser fusion of titanium microparticles. Journal of Osseointegration 2009; Vol. 1 n. 1:9-22
37. Mangano C, Raspanti M, Traini T, Sammons RL, Piattelli A. Stereo imaging and cytocompatibility of a model dental implant surface formed by direct laser fabrication. Journal of Biomedical Materials Research Part A 2009; Vol. 88A n. 3:823-831
38. Mangano C, Piattelli A, Mangano F, Perrotti V, Iezzi G. Immediate loading of modified acid etched dental implants in post-extraction sockets. Implant Dentistry 2009; Vol. 18 n. 2:142-150
39. Macchi A, Taubert Pozzi S, Zecca PA. Direct metal laser‐sintering per la produzione di impianti “custom made”.DoctorOS 2009; Anno XX n. 8:1086‐1087
40. Shibli J A, Mangano C, Mangano F, Iezzi G, Cordoso L, Onuma T, Ferrari D, Piattelli A. Early human bone response to laser metal sintering surface topography: a histologic evaluation.Clinical Oral Implant Research 2009; Vol. 20 n. 9 - 1036
41. Macchi A, Mangano C, Mangano F. Direct Titanium laser forming implants.Ceramics, Cells and Tissues 12° Annual seminar & Meeting Faenza 2009; 59
42. De Benedictis S, Berardi D, Malagola C, Trisi P, Perfetti G. Histomorphometric and torque out evaluation of new laser treated implant surfaces: an in vivo study on ovine iliac crest.Clinical Oral Implant Research 2009; Vol. 20 n. 9
43. Mangano C, Perrotti V, Iezzi G, Scarano A, Mangano F, Piattelli A. Bone response to a new modified titanium surface implants. Journal of Oral Implantology 2008; Vol. 34 n. 1:17-24 44. Traini T, Mangano C, Sammons RL, Mangano F, Macchi A, Piattelli A. Direct laser metal sintering as a new approach to fabrication of an isoelastic functionally graded material. Dental Materials 2008; 24:1525-1533
45. Iezzi G, Scarano A, Mangano C, Cirotti B, Piattelli A. Histologic results from a human implant retrieved due to fracture 5 years after insertion. Journal of Periodontology 2008; Vol. 79, n. 1:192-198
46. Mangano F, Sammons RL, Mangano C, Montini S, Piattelli A. Biological investigation of an experimental laser sintered titanium implant surface. Clinical Oral Implant Research 2007; Vol. 18, n. 5:333
47. Raspanti M, Mangano C, Macchi A, Mangano F, Piattelli A, Traini T. Morphological investigation of an experimental laser sintered titanium implant. European Journal of Implant Prosthodontics 2007; Vol. 1, n. 3:28
48. Mangano C, Traini T, Piattelli A, Macchi A, Mangano F, Montini S, Mangano A. Producing dental implants by Direct Laser Forming. Italian Oral Surgery 2006; 4:7-12
49. Mangano C, Macchi A, Mangano A. A new modified titanium implant surface: histological evaluation in non human primates and humans. Dental Horizon 2006; Vol. 4, n. 2:313-317
50. Mangano F, Mangano C, Piattelli A, Iezzi G, Perrotti V. Histologic evaluation of immediately loaded titanium implants.Clinical Oral Implant Research 2006; Vol. 17, n. 4 - 158
51. Iezzi G, Traini T, Mangano C, Piattelli A. Surface microstructure and fibrine extension on titanium laser sintered specimens. Journal of Clinical Periodontology 2006; 73-80 52. Iezzi G, Traini T, Mangano C, Sammons RL, Piattelli A. FESEM and microanalysis investigation of an experimental sintered titanium alloy implant. Academy of Osseointegration 21st Annual meeting, March 2006; 78
The fi rst and unique implant in the world manufactured through Direct Laser Metal Forming technique by microfusion of titanium particles
Tixos is the result of clinical researches,
of experience in implantology and of a
unique manufacturing process - laser
microfused titanium powder - that
produces a porous revolutionary surface.
II III
Until now, dental implants currently available on the market have been produced by machining titanium rods, with subsequent post-fabrication processing and application of surface treatments or coatings, with the aim to promote osseointegration, accelerating the bone healing processes.
In the last years, considerable progress has been made in the development of rapid prototyping (RP) methods, including Direct Laser Metal Forming (DLMF).
DLMF is a timesaving metal forming procedure in which an high power laser beam is directed on a metal powder bed and programmed to fuse particles according to a CAD file, thus generating a thin metal layer. Apposition of subsequent layers gives shape to a desired 3D form with the need of minimal post-processing requirements. With DLMF, it is now possible to fabricate dental implants with different shapes and textures, directly from CAD models.
TiXos implant, manufactured through this laser forming methods is a functionally graded fixture, possessing a gradient of porosity perpendicular to the long axis, with a relatively high porosity at the surface and an high density in the core. Around a very compact core an isoelastic surface is created, which replicates the bone spongy geometry; such a structure - impossible to obtain through the traditional treating surface processes - is highly mimetic, thus accelerating bone healing and enhancing faster osseointegration, as demonstrated by different in vitro and in vivo human studies*. The mechanical characteristics of TiXos implants are
excellent, while the surface morphology promotes bone healing, enhancing 3D organization of fibrin network, cell adhesion and migration, fluids and nutritional elements exchanges and the development of proper vascularization aiming to the organization of bone matrix. The tridimensional geometry constituted by micro and macro-cavities of well defined sizes and form, interconnected by micro-pores, promotes bone formation. The concavities, with size 2 to 200 microns, penetrate deep inside the implant body down to 250 microns, creating interconnected pits and pores that are colonized by bone cells.
The manufacturing process The tridimentional porous structure
Direct Laser Metal Forming (DLMF) Technique surface
*References at page 74
TiXos is the first dental implant in the world manufactured by Direct Laser Metal Forming technique.
Implant is computer designed in 3D.The desired model is produced by fusion of the metal powder nano-particles through a focused laser beam.
Tixos surfaces - at different magnifications - features interconnected cavities and pores.
Implant is computer designed in 3D.
Tixos surfaces - at different magnifications - features interconnected cavities and pores. Tixos surfaces - at different magnifications - features interconnected cavities and pores.
Isoelastic structure
Young's modulus of elasticity of compact core and porous region of the specimens compared to ASTM
values and values of cortical bone.
p = 0.009p = 0.017
p = 0.050
p = 0.010p = 0.025
p = 0.013
ASTM
Youn
g’s
mo
dul
us o
f el
astic
ity (G
Pa)
compacttitanium
poroustitanium
corticalbone**
140-
120-
100-
80-
60-
40-
20-
0-
Another extraordinary feature, demonstrated by the studies carried out by Prof. R. Sammons at the University of Birmingham*, is the isoelasticity of the surface, that has a Young module very similar to the bone one, while the implant core maintains the characteristic Young module of titanium, as for ASTM standards.
The isoelasticity gives the implant a structure very close to the bone, more similar than any other implant on the market.
VIV
In vitro and in vivo studies
Scientific evidences
Fibrin clot adheres to the surface.
Osteoblast cells colonized the implant surface.
In vitro researches
The biological response to the TIXOS implant surface has been investigated in different in vitro studies, in which human fibrin clot formation and the behaviour of human osteoblast and mesenchymal stem cells have been analyzed.
Implant retrieved after 8 weeks shows new bone ingrowth inside the surface cavities.
In vivo researches
Histological studies on human have demonstrated the rapid growth of newly-formed bone inside the interconnected cavities of the microfused titanium surface ...
... and the perfect adherence between the implant neck and soft tissues.
In vitro studies carried out by Prof. R. Sammons at the University of Birmingham (UK) and by Prof. G. Papaccio at the II University of Naples (Italy), the researches carried out by the Universities of Varese and Chieti (Italy) and clinical-histological trials carried out on animals and humans by Prof. J.A. Shibli at the University of Guarulhos, Sao Paulo (Brazil), have
demonstrated the capability of these implants to accelerate bone healing, thus improving a faster osseointegration compared with the traditional surfaces on the market, and allowing bone formation (down to 200 microns) inside the isoelastic porous structure.
*References on page 74
The connectival fibers get perpendicularly on the TiXos surface
The label on the vial and those contained in the package depict all necessary data to trace back the inserted implant.It is recommended to attach the labels on the patient clinical folder and on the patient card, so as to ensure complete product traceability.
Labels
Each implant package contains also the patient card which is destined to the attachment of the labels which depicts the inserted implant description and collect all the operating data.It is recommended to fill in the patient card completely and hand it to the patient, informing him/her to take it at each follow-up session.
Patients Card
Identification of Leader implants
VI
0 4 3 4LOTABC123
STERILE R
Batch code Symbol of conformity to CEE n° 93/42 related to Medical Devices
Do not reuse (single use) Sterilized using irradiation
Use by
Do not use if the product sterilization barrier or its packaging
is compromised
Consult instructions for use
Caution
Tixos CYLiNDRiCAL Implants 2
Internal hex 2
External hex 8
TiXos Short 14
Surgical instruments and accessories 20
Boxes and instruments sets 28
Prosthetic components and accessories 31
Tixos NANo Implants 58
NANO for fi x prosthesis 58
NANO for removable prosthesis 60
Surgical instruments and accessories 64
Prosthetic components and accessories 66
Prosthetic accessories for overdenture for TIXOS CYLINDRICAL and TIXOS NANO 67
Tixos s-TYPE Implants 68
Transmucous 68
Surgical instruments and accessories 70
Prosthetic components and accessories 72
Custom-made applications 73
References 74
2 3
Ø Length Code
3,5
45
Pla
tfo
rm
6
Length Code
3,3 8,0 09IT3308 10,0 09IT3310 11,5 09IT3311 13,0 09IT3313 16,0 09IT3316
3,75 8,0 09IT3708 10,0 09IT3710 11,5 09IT3711 13,0 09IT3713 16,0 09IT3716
4,5 8,0 09IT4508 10,0 09IT4510 11,5 09IT4511 13,0 09IT4513 16,0 09IT4516
5,5 8,0 09IT5508 10,0 09IT5510 11,5 09IT5511 13,0 09IT5513
• Fixture in titanium, Grade 5
• Microfused, porous, isoelastic surface
• Interconnected cavities: 2-200 microns
• Active porous surface thickness: about 250 microns
• All implants are packaged with a colour coded multi-functional tool named Mount-transfer (in titanium, Grade 5).
• High adherence to bone structure
• Great resistance to horizontal stresses
• Round apex: minimum trauma during insertion
Internal hex
Mount-transferTixos implants are equipped with a transport tool that allows the surgeon to transport and position the implant in conditions of absolute sterility.
The mount-transfer is screwed on the implant through a passing screw (M 1,8) to be discarded after the insertion of the implant.
The upper part of the transfer has an hex ES 2.43
When using a custom tray, the long passing screw code PSTL has to be ordered separately.
Packaging- Packaging in compliance with ISO 11607-1 and 2.- Sterilization by gamma rays 25 kGy- Sterility guaranteed for 5 years by waterproof double packaging in airtight sealed glass vial and blister- The packaging contains: Implant held by a titanium mount- transfer, Surgical screw.
The mount-transfer is a multi-function mechanical instrument used as:
• instrument to transport the fixture from the glass vial to the implant site
• impression transfer
• temporary abutment
• permanent abutment.
The mount-transfer is colour coded to identify the relative implant platform diameter.
CYLINDRICAL
Por
ous
surf
ace
The cover colour identifies the platform diameter.
0,4 mm
Impl
ant
leng
th
Thre
ad p
itch
: 1
,25
mm
4 5
Tixos cYLINDRIcAL INTERNAL HEX SURGIcAL PROTOcOLTixos cYLINDRIcAL INTERNAL HEX SURGIcAL PROTOcOL
Ø 3,3Ø 3,3 - 3,75 - 4,5 - 5,5
Recommended First preparation
Ø 3,75
8,010,011,513,016,0
8,010,011,513,016,0
09IT330809IT331009IT331109IT331309IT3316
09IT370809IT371009IT371109IT371309IT3716
Length
Length
Code
Code
Recommended drill sequence Final drillin soft bone In dense bone
Bone Tap(2)
Ø 3,3CTCAT33
Max. 15-18 rpm
(1) (2) see NOTE page. 12
Platform: Ø 4,0 mm Internal hex: h 2,1 mm Core: Ø 3,0 mm Apex: Ø 2,3 mm
Platform: Ø 3,5 mm Internal hex: h 2,1 mm Core: Ø 2,6 mm Apex: Ø 1,8 mm
Round drillØ 1,9
DS19SMax. 1.000 rpm
Cortical drillØ 1,8 DSP18
Max. 800 rpm
NOTE
Once the implant site has
been exposed, use a round
drill to smooth and level the
bone crest - in order to avoid
the implant neck exposure
after the implant insertion -
followed by a cortical drill to
mark the center position of
the implant site.
Paralleling PinØ 2/3,2 PN2/4
Pilot DrillØ 2,0
DSS20S/LMax. 800 rpm
Step drill - optional - Ø 2,0/2,6DSP2026
Max. 500 rpm
Twist Drill UNICAØ 2,6
DSS26S/LMax. 500 rpm
Recommended drill sequence Final drillin soft bone Extended sequence in dense bone
Paralleling PinØ 2/3,2 PN2/4
Twist Drill UNICAØ 2,6
DSS26S/LMax. 500 rpm
Twist Drill UNICAØ 3,0
DSS30S/LMax. 500 rpm
Twist Drill UNICAØ 3,2
DSS32S/LMax. 500 rpm
Countersink(1)
Ø 4,0CST40
Max. 250 rpm
Bone Tap(2)
Ø 3,7CTCAT37
Max. 15-18 rpm
Pilot DrillØ 2,0
DSS20S/LMax. 800 rpm
(1) (2) NOTES on page 12
Step drill - optional - Ø 2,0/2,6DSP2026
Max. 500 rpm
Step drill - optional - Ø 2,6/3,2DSP2632
Max. 500 rpm
6 7
Ø 4,5
Ø 5,5
8,010,011,513,016,0
8,010,011,513,0
09IT450809IT451009IT451109IT451309IT4516
09IT550809IT551009IT551109IT5513
Length
Length
Code
Code
(1) (2) see NOTE page. 12
Platform: Ø 5,0 mm Internal hex: h 2,1 mm Core: Ø 3,5 mm Apex: Ø 2,85 mm
Platform: Ø 6,0 mm Internal hex: h 2,1 mm Core: Ø 4,5 mm Apex: Ø 4,0 mm
Recommended drill sequence Final drillin soft bone Extended sequence in dense bone
Step drill - optional - Ø 2,0/2,6DSP2026
Max. 500 rpm
Step drill - optional - Ø 2,6/3,2DSP2632
Max. 500 rpm
Step drill - optional - Ø 3,2/3,8DSP3238
Max. 500 rpm
Paralleling PinØ 2/3,2 PN2/4
Twist Drill UNICAØ 2,6
DSS26S/LMax. 500 rpm
Twist Drill UNICAØ 3,2
DSS32S/LMax. 500 rpm
Twist Drill UNICAØ 3,5
DSS35S/LMax. 500 rpm
Twist Drill UNICAØ 3,8
DSS38S/LMax. 500 rpm
Countersink(1)
Ø 5,0CST50
Max. 250 rpm
Bone tap(2)
Ø 4,5CTCAT45
Max. 15-18 rpm
Pilot DrillØ 2,0
DSS20S/LMax. 800 rpm
Step drill - optional - Ø 2,0/2,6DSP2026
Max. 500 rpm
Step drill - optional - Ø 2,6/3,2DSP2632
Max. 500 rpm
Step drill - optional - Ø 3,2/3,8DSP3238
Max. 500 rpm
Recommended drill sequence Final drillin soft bone
Extended sequence in dense bone
Paralleling PinØ 2/3,2 PN2/4
Twist Drill UNICAØ 2,6
DSS26S/LMax. 500 rpm
Twist Drill UNICAØ 3,2
DSS32S/LMax. 500 rpm
Twist Drill UNICAØ 3,8
DSS38S/LMax. 500 rpm
Twist Drill UNICAØ 4,2
DSS42S/LMax. 500 rpm
Twist Drill UNICAØ 4,5
DSS45SMax. 400 rpm
Twist Drill UNICAØ 4,8
DSS48S/LMax. 400 rpm
Countersink(1)
Ø 6,0CST60
Max. 250 rpm
Pilot DrillØ 2,0
DSS20S/LMax. 800 rpm
(1) (2) NOTES on page 12
Tixos cYLINDRIcAL INTERNAL HEX SURGIcAL PROTOcOLTixos cYLINDRIcAL INTERNAL HEX SURGIcAL PROTOcOL
8 9
Ø Length Code
4,1
4,1
5
Pla
tfo
rm
Length Code
3,3 10,0 09ITX3310 11,5 09ITX3311 13,0 09ITX3313 16,0 09ITX3316
3,75 8,0 09ITX3708 10,0 09ITX3710 11,5 09ITX3711 13,0 09ITX3713 16,0 09ITX3716
5,0 8,0 09ITX5008 10,0 09ITX5010 11,5 09ITX5011 13,0 09ITX5013
External hex
Mount-transferTixos implants are equipped with a transport tool that allows the surgeon to transport and position the implant in conditions of absolute sterility.
The mount-transfer is screwed on the implant through a passing screw (M 2) to be discarded after the insertion of the implant.
The upper part of the transfer has an hex ES 2.43
When using a custom tray, the long passing screw code PSXTL has to be ordered separately.
Impl
ant
leng
th
0,7 mm
0,7 mm
The cover colour identifies the platform diameter.
Por
ous
surf
ace
• Fixture in titanium, Grade 5
• Microfused, porous, isoelastic surface
• Interconnected cavities: 2-200 microns
• Active porous surface thickness: about 250 microns
• All implants are packaged with a colour coded multi-functional tool named Mount-transfer (in titanium, Grade 5).
• High adherence to bone structure
• Great resistance to vertical stresses
• Round apex: minimum trauma during insertion
CYLINDRICAL
Packaging- Packaging in compliance with ISO 11607-1 and 2.- Sterilization by gamma rays 25 kGy- Sterility guaranteed for 5 years by waterproof double packaging in airtight sealed glass vial and blister- The packaging contains: Implant held by a titanium mount- transfer, Surgical screw.
The mount-transfer is a multi-function mechanical instrument used as:
• instrument to transport the fixture from the glass vial to the implant site
• impression transfer
• temporary abutment
• permanent abutment.
The mount-transfer is colour coded to identify the relative implant platform diameter.
Thre
ad p
itch
: 1
,25
mm
Thre
ad p
itch
: 1
,25
mm
10 11
Tixos cYLINDRIcAL EXTERNAL HEX SURGIcAL PROTOcOL
Ø 3,3 - 3,75 - 5,0
Recommended First preparation
8,010,011,513,016,0
09ITX370809ITX371009ITX371109ITX371309ITX3716
Length Code
Tixos cYLINDRIcAL EXTERNAL HEX SURGIcAL PROTOcOL
Ø 3,3
Length Code
Recommended drill sequenceExtended sequence in dense bone
Platform: Ø 4,1 mm External hex: h 0,7 mm Core: Ø 2,6 mm Apex: Ø 1,8 mm
10,011,513,016,0
09ITX331009ITX331109ITX331309ITX3316
Paralleling PinØ 2/3,2 PN2/4
Twist Drill UNICAØ 2,6
DSS26S/LMax. 500 rpm
Countersink(1)
Ø 4,0CSXT33
Max. 250 rpm
Bone Tap(2)
Ø 3,3CTCAT33
Max. 15-18 rpm
Pilot DrillØ 2,0
DSS20S/LMax. 800 rpm
(1) (2) see NOTE page. 12
Round drillØ 1,9
DS19SMax. 1.000 rpm
Cortical drillØ 1,8 DSP18
Max. 800 rpm
NOTE
Once the implant site has
been exposed, use a round
drill to smooth and level the
bone crest - in order to avoid
the implant neck exposure
after the implant insertion -
followed by a cortical drill to
mark the center position of
the implant site.
Ø 3,75 Platform: Ø 4,1 mm External hex: h 0,7 mm Core: Ø 3,0 mm Apex: Ø 2,3 mm
Recommended drill sequence Final drillin soft bone Extended sequence in dense bone
Paralleling PinØ 2/3,2 PN2/4
Twist Drill UNICAØ 2,6
DSS26S/LMax. 500 rpm
Twist Drill UNICAØ 3,0
DSS30S/LMax. 500 rpm
Twist Drill UNICAØ 3,2
DSS32S/LMax. 500 rpm
Countersink(1)
Ø 4,0CSXT40
Max. 250 rpm
Bone Tap(2)
Ø 3,7CTCAT37
Max. 15-18 rpm
Pilot DrillØ 2,0
DSS20S/LMax. 800 rpm
(1) (2) NOTES on page 12
Step drill - optional - Ø 2,0/2,6DSP2026
Max. 500 rpm
Step drill - optional - Ø 2,6/3,2DSP2632
Max. 500 rpm
Step drill - optional - Ø 2,0/2,6DSP2026
Max. 500 rpm
12 13
Ø 5,0
8,010,011,513,0
09ITX550809ITX551009ITX551109ITX5513
Length Code
Recommended drill sequence
Platform: Ø 5,0 mm External hex: h 0,7 mm Core: Ø 4,0 mm Apex: Ø 3,45 mm
Step drill - optional - Ø 2,0/2,6DSP2026
Max. 500 rpm
Step drill - optional - Ø 2,6/3,2DSP2632
Max. 500 rpm
Step drill - optional - Ø 3,2/3,8DSP3238
Max. 500 rpm
Paralleling PinØ 2/3,2 PN2/4
Twist Drill UNICAØ 2,6
DSS26S/LMax. 500 rpm
Twist Drill UNICAØ 3,2
DSS32S/LMax. 500 rpm
Twist Drill UNICAØ 3,8
DSS38S/LMax. 500 rpm
Twist Drill UNICAØ 4,2
DSS42S/LMax. 500 rpm
Pilot DrillØ 2,0
DSS20S/LMax. 800 rpm
In case of • bone quality D1-D2, the use of countersink is compulsory to enhance the housing of the implant neck, avoiding the compression of the cortical bone. In case of • bone quality D3, the use of countersink is up to the dental surgeon (it is compulsory for external hex implant with Ø 3,3 mm).In case of • poor bone quality (D4) the countersink is not to be used because it could remove the marginal crestal bone available, increasing the gap between the interface bone-implant.
The technical suggestions reported in this catalogue can under no circumstances substitute the clinical evaluations and therapeutic indications that are of exclusive competence of the Dentist.
As the implant insertion in the surgical site is very easy, the manual screwing is recommended, placing the fixture slightly under bone crest (0.2/0.3 mm).
In case of bone quality D1, insert the bone tap down to its • total length into the prepared site.In case of bone quality D2, insert the bone tap only down to • 60% of its length
Before palnning and starting implantology surgery, it is recommended to perform a careful check and prophylaxis treatment of the patient.
A check of the implant stability is recommended, at least once a year, together with the annual maintenance.
(1) USING THE COUNTERSINK GENERAL NOTES(2) USING THE BONE TAP
Tixos cYLINDRIcAL EXTERNAL HEX SURGIcAL PROTOcOL Tixos cYLINDRIcAL EXTERNAL HEX SURGIcAL PROTOcOL
14 15
RL E A D EI T A L I A
RL E A D EI T A L I A
External Hex
Mount-transferTixos implants are equipped with a transport tool that allows the surgeon to transport and position the implant in conditions of absolute sterility.
The mount-transfer is screwed on the implant through a passing screw (M 2) to be discarded after the insertion of the implant.
The upper part of the transfer has an hex ES 2.43
When using a custom tray, the long passing screw code PSXTL has to be ordered separately.
The cover colour identifies the pla-tform diameter.
SHORT
Packaging- Packaging in compliance with ISO 11607-1 and 2.- Sterilization by gamma rays 25 kGy- Sterility guaranteed for 5 years by waterproof double packaging in airtight sealed glass vial and blister- The packaging contains: Implant held by a titanium mount- transfer, Surgical screw.
The mount-transfer is a multi-function mechanical instrument used as:
• instrument to transport the fixture from the glass vial to the implant site
• impression transfer
• temporary abutment
• permanent abutment.
The mount-transfer is colour coded to identify the relative implant platform diameter.
Impl
ant
leng
th
Impl
ant
leng
th
0,7 mm 0,7 mm
0,7 mm 0,7 mm
Thre
ad p
itch
: 0
,9 m
m
Thre
ad p
itch
: 0
,9 m
m
Por
ous
surf
ace
Por
ous
surf
ace
Ø Length Code
4,1
Plat
form
Length Code
3,75 5,0 09ITX3705
5,0 5,0 09ITX5005
• Fixture in titanium, Grade 5
• Microfused, porous, isoelastic surface
• Interconnected cavities: 2-200 microns
• Active porous surface thickness: about 250 microns
• All implants are packaged with a colour coded multi-functional tool named Mount-transfer (in titanium, Grade 5).
Ideal in particular case of poor bone quality with short • vertical bone space in the posterior area of the upper jaw
Allows to avoid advanced surgical operations such as • sinus lift
Time and cost saving•
16 17
5,0 09ITX3705
Height Code
Tixos SHORT EXTERNAL HEX SURGIcAL PROTOcOLTixos SHORT EXTERNAL HEX SURGIcAL PROTOcOL
Ø 3,75 - 5,0
Recommended First preparation
Ø 3,75 Platform: Ø 4,1 mm External hex: h 0,7 mm Core: Ø 3,0 mm Height 5,0 mm
Round drillØ 1,9
DS19SMax. 1.000 rpm
Cortical drillØ 1,8 DSP18
Max. 800 rpm
NOTE
Once the implant site has
been exposed, use a round
drill to smooth and level the
bone crest - in order to avoid
the implant neck exposure
after the implant insertion -
followed by a cortical drill to
mark the center position of
the implant site.
Recommended drill sequence Final drillin soft bone Extended sequence in dense bone
Paralleling PinØ 2/3,2 PN2/4
Twist Drill UNICAØ 2,6
DSS26S/LMax. 500 rpm
Twist Drill UNICAØ 3,0
DSS30S/LMax. 500 rpm
Twist Drill UNICAØ 3,2
DSS32S/LMax. 500 rpm
Countersink(1)
Ø 3,7CSXTS37
Max. 250 rpm
Bone Tap(2)
Ø 3,75CTCATS37
Max. 15-18 rpm
Pilot DrillØ 2,0
DSS20S/LMax. 800 rpm
(1) (2) NOTES on page 18
Step drill - optional - Ø 2,0/2,6DSP2026
Max. 500 rpm
Step drill - optional - Ø 2,6/3,2DSP2632
Max. 500 rpm
18 19
Tixos SHORT EXTERNAL HEX SURGIcAL PROTOcOLTixos SHORT EXTERNAL HEX SURGIcAL PROTOcOL
In case of • bone quality D1-D2, the use of countersink is compulsory to enhance the housing of the implant neck, avoiding the compression of the cortical bone. In case of • bone quality D3, the use of countersink is up to the dental surgeon).In case of • poor bone quality (D4) the countersink is not to be used because it could remove the marginal crestal bone available, increasing the gap between the interface bone-implant.
The technical suggestions reported in this catalogue can under no circumstances substitute the clinical evaluations and therapeutic indications that are of exclusive competence of the Dentist.
The insertion is usually operated using a contra-angle.
In case of bone quality D1, insert the bone tap down to its • total length into the prepared site.In case of bone quality D2, insert the bone tap only down to • 60% of its length
Before palnning and starting implantology surgery, it is recommended to perform a careful check and prophylaxis treatment of the patient.
A check of the implant stability is recommended, at least once a year, together with the annual maintenance.
(1) USING THE COUNTERSINK GENERAL NOTES(2) USING THE BONE TAP
5,0 09ITX5005
Height Code
Ø 5,0 Platform: Ø 4,1 mm External hex: h 0,7 mm Core: Ø 4,0 mm Height 5,0 mm
Recommended drill sequence
Step drill - optional - Ø 2,0/2,6DSP2026
Max. 500 rpm
Step drill - optional - Ø 2,6/3,2DSP2632
Max. 500 rpm
Step drill - optional - Ø 3,2/3,8DSP3238
Max. 500 rpm
Paralleling PinØ 2/3,2 PN2/4
Twist Drill UNICAØ 2,6
DSS26S/LMax. 500 rpm
Twist Drill UNICAØ 3,2
DSS32S/LMax. 500 rpm
Twist Drill UNICAØ 3,8
DSS38S/LMax. 500 rpm
Twist Drill UNICAØ 4,2
DSS42S/LMax. 500 rpm
Bone Tap(2)
Ø 5,0CTCATS50
Max. 15-18 rpm
Pilot DrillØ 2,0
DSS20S/LMax. 800 rpm
20 21
Surgical instruments for TIXOS implants Surgical instruments for TIXOS implants
Surgical steel, TiN coated. Working length: 16.5 mm. Max. use: 10 site preparations.Use of Twist drills with stopsThey are used with the stops applied at the desired length, matching the implant one. They are also laser marked, so that they can be used also without stops.
Calibrated stops
For drills with ØHeight
5 mm
8 mm
10 mm
11,5 mm
13 mm
In gr 5 titanium. They are applied on the drill to reach the desired working length.They are very useful when working near sensible areas such as lower alveolar site and upper sinus.Note: the stops height is referred to the lowest surface of the bone crest.
Preparation drills
“Unica” Twist drill, in surgical steel with stops Short 34,5 mm Long 40,5 mm
1,8 - 2,0 - 2,3
05STP18200505STP18200805STP18201005STP18201105STP182013
2,6 - 2,8 - 3,0 - 3,2
05STP26320505STP26320805STP26321005STP26321105STP263213
3,5 - 3,8 - 4,2
05STP38420505STP38420805STP38421005STP38421105STP384213
Calibrated stop kit
Pkg. 4 pcs: h 8-10-11,5-13 mm
Pkg. 3 pcs: h 5 mm for Tixos Short
For drills with Ø
For drills with Ø
1,8 - 2,0 - 2,3
05STPK1
1,8 to 4,2
05STPK4
2,6 - 2,8 - 3,0 - 3,2
05STPK2
3,5 - 3,8 - 4,2
05STPK3
Ø 4,5 mm
05DSS45S
Ø 4,2 mm
05DSS42S05DSS42L
Ø 2,8 mm
05DSS28S05DSS28L
Ø 4,8 mm
05DSS48S05DSS48L
Ø 2,3 mm
05DSS23S05DSS23L
Ø 3,8 mm
05DSS38S05DSS38L
Ø 3,5 mm
05DSS35S05DSS35L
Length
34,5 mm
40,5 mm
34,5 mm
40,5 mm
34,5 mm
40,5 mmUse without stopUse without stop
Ø 2,0 mm (pilot)
05DSS20S05DSS20L
Ø 1,8 mm
05DSS18S05DSS18L
Ø 3,0 mm
05DSS30S05DSS30L
Ø 3,2 mm
05DSS32S05DSS32L
Ø 2,6 mm
05DSS26S05DSS26L
The “Unica” drill can be used for the whole range of Leader Italia
implants.
Step drills
Surgical steel, TiN coated.They are designed to facilitate the transition of the Twist Drills from the smaller diameter to the next one.Working length: 7,0 mm.
Ø 2,0/2,6 mm
05DSP2026
Ø 2,6/3,2 mm
05DSP2632
Ø 3,2/3,8 mm
05DSP3238
Ø 1,8 mm
05DSP18
Ø 2,3 mm
05DSP
Ø 1,9 mm
11DS19S
Tissue Punches Round drill
Gr 5 titanium. Surgical steel.
Cortical Drill
Surgical steel. Used to precisely drill the cortical bone.
Ø 4,5 mm
01MTCA45
Ø 6,0 mm
01MTCA60
NOTE We recommend to replace the o-rings frequently, since they are susceptible to wear due to frequent sterilization cycles.
22 23
Gr 5 titanium. Used to facilitate the screwing of the implant in compact bone (see notes at pag. 12).
Bone taps Max. speed 15-18 rpm
Ø 3,7 mm
01CTCAT37
Ø 3,3 mm
01CTCAT33
Ø 4,5 mm
01CTCAT45
Ø 5,0 mm
01CTCATS50
For TiXos Short
Ø 3,7 mm
01CTCATS37
For TiXos Short
Acessories for bone taps
Connections Gr 5 titanium
01TCM01TCMS
standard
short
Accessories for all drills
Extension tool
01TEXT
Countersink Max. speed 250 rpm
Ø 5,0 mm
01CST50Ø 4,5
Ø 3,75 mm
01CSXTS37For Tixos Short
Ø 4,0 mm
01CST40Ø 3,75
01CSXT33Ø 3,3 external hex
01CSXT40Ø 3,75 external hex
Ø 6,0 mm
01CST60Ø 5,5
Gr 5 titanium. They are essential to avoid creating pressure at the cortical bone dueing the insertion of the implant neck.
Accessories for bone expanders
Connections Surgical steel Screwdriver Surgical steel
Box Surgical steel (empty)
Contra-angleES 3,5 mm
01TLCBETo use the bone expan-
ders with contra-angle:
max speed 15-20 rpm
07VOBE
RatchetES 3,5 mm
01CTEX
ES 3,5 mm
01TLBE
Ø 2,0 mm
01OBE20
Ø 2,3 mm
01OBE23
Ø 3,6 mm
01OBE36
Ø 2,6 mm
01OBE26
Ø 4,2 mm
01OBE42
Ø 2,8 mm
01OBE28
Ø 3,2 mm
01OBE32
Ø 4,4 mm
01OBE44
Bone expanders
Gr. 5 titanium, nitrided. Working length (depth)13 mm. The black, well visible markings, indicate the working depth.
Markings height
13,0 mm
11,5 mm
10,0 mm
8,0 mm
Markings height
13,0 mm
11,5 mm
10,0 mm
8,0 mm
13,0
10,0
11,5
8,0
Surgical instruments for TIXOS implants Surgical instruments for TIXOS implants
To use the bone taps with the manual ratchet code 01TW.
Surgical steel, DLC coated.For all drills.
24 25
Surgical instruments for TIXOS implants Surgical instruments for TIXOS implants
Expanding Osteotomes With convex end, they are used for ridge expansion
Compacting Osteotomes With concave end, they are used for mini sinus lift
Trephines For intraoral bone extraction and/or for osseointegrated implant removal.
In surgical steel. Thanks to lateral holes they allow the easy extraction of the obtained bone core.
Markings height
8 mm
10 mm
11 mm
13 mm
16 mm
Ø 4,0 mm
01OE400801OE401001OE401101OE401301OE4016
Ø 5,0 mm
01OE500801OE501001OE501101OE501301OE5016
Ø 6,0 mm
01OE600801OE601001OE601101OE6013
Gr 5 titanium. Each instrument works at the marked depth.
Markings height
18 mm
10 mm
11 mm
13 mm
16 mm
Ø 4,0 mm
01OC400801OC401001OC401101OC401301OC4016
Ø 5,0 mm
01OC500801OC501001OC501101OC501301OC5016
Gr 5 titanium. Each instrument works at the marked depth.
Ø 3,6/4,6 mm
11DSTB368/1311DSTB3615/18
Ø 4,1/5,1 mm
11DSTB418/1311DSTB4115/18
Ø 5,1/6,1 mm
11DSTB518/1311DSTB5115/18
Ø 6,1/7,1 mm
11DSTB618/1311DSTB6115/18
Markings
8-13 mm
15-18 mm
ES 1,25 mm
01TLMR12L01TLMR12S
Length (L) mm
Long: 16,60
Short: 11,60
Length (L) mm
14,10L L
Universal drivers for surgery and prosthetic Driver for frictioning passing screw
In steel, DLC coated.Hex section, rotating head.
In steel DLC coated.Hex section, rotating head.
ES 1,60 mm
01TLMR16SL
For PSF frictioning screw only
Connections
For contra-angle For surgery and prosthetic (1)
Mechanical insertion of the fixture
For ratchet (for implants) For torque ratchet (for passing screws)
Manual insertion of the fixture
In steel, DLC coated. Hex section. In steel, DLC coated. Hex section.
Length (L) mm
X-short 12,50
Short 18,00
Long 25,00
Length (L) mm
23,00 mm
Length (L) mm
22,00 mm
ES 2,45 mm(1)
01TW24XS01TW24S01TW24L
(1) To screw the implant in.(2) Only to carry the implant from the glass vial to the surgical site: do not use to screw the implant in.
Frictioning ES 2,45 mm(2)
01TWF24XS01TWF24S01TWF24L
ES 1,6 mm
01TW16LTapered screw (PSF / PSXF)
ES 1,25 mm
01TW12LCylindrical screw
The tapered screw has to be fixed at 35 Ncm
The cylindrical screw has to be fixed at 25-30 Ncm
L L LL
In steel, DLC coated. Hex section. Max speed. 15 rpm In steel, DLC coated. Hex section.
Length (L) mm
Short 22,00
Long 27,00
Length (L)
27,00 mm
ES 1,25 mm
01TLCA125S01TLCA125LCylindrical screw
ES 1,6 mm
01TLCA16LTapered screw (PSF / PSXF)
(1) For cover screw, healing screw and passing screws of abutments
To fix the passing screw mechanically, use low speed: Max. speed 15 rpm
At the end that is inserted on the contra-angle, the connection can stand a torque up to 90-100 Ncm; above 120-130 Ncm it breaks.The hex breaks at 250 Ncm (the frictioning one breaks at 70-80 Ncm when wrongly inserted).
L LLength (L) mm
Short 22,50
Long 27,50
ES 2,45 mm
01TLCA245S01TLCA245L
Frictioning ES 2,45 mm
01TLCAF245S01TLCAF245L
L L
NOTE We recommend to replace the o-rings frequently, since they are susceptible to wear due to frequent sterilization cycles.
Implant mechanical insertion (contra-angle speed 15-18 rpm)
Implant manual insertionQ
26 27
Surgical instruments for TIXOS implants Surgical instruments for TIXOS implants
Accessories
Alveolar probe
01SAP1
The round tip allows the automatic check of the site and respects the maxillary sinus
Paralleling PinsØ 2/3,2
01PN401PN2
Ratchet
01TW
Manual digma
01TLM
Open wrenches
01T4501T5001T60
To be used with driver Ø 1,25 for mount-tran-sfer removal, avoiding implant trauma
Titanium tanks
01SAT1
01SAT2
Empty
2 holes
Torque ratchet for Newton torque control device
01TW1
Tweezers
01SATT Pack. 4 pcs
Pack. 2 pcs
Cod. 01ZNW Newton Torque control device, see next page.
Newton
Tightening screws All dynamometric wrenches can lose their adjustment during sterilization and lubrication cycles, so they require to be adjusted again before use, in order to avoid to apply a wrong torque.To register the wrench precisely to the desired torque, the professionals would need a proper device dedicated to this operation.
NEWTON torque control system offers the clinician one fundamental advantage compared to other devices: with just one dynamometric wrench (and a lower cost) the dentist can decide to tighten the screw in a range of 5 - 60 Ncm, simply rotating the torque adjustment knob, using the graduated support of Newton device.
NEWTON torque control device enables the ratchet setting to any value between 10 and 50 Ncm; it guarantees high precision since it works basing on the relation between the metallic weight, the length of pin inserted in the metallic wheel, the angle of the metallic wheel and the force of gravity.
01TW1
spring torque adjustment knob
Fig. 1
Rotation centre(screw axis/shaft)
1 Kg = 9.81 NewtonTorque = Tightening force obtained by force (weight) x distance from the rotation axis/shaftIn all the three described cases, the applied torque is 350 Nmm = 35 Ncm
Ratchet registration for the desired torque
“M” Torque
Torque adjustment
M Torque = P x g = 35 N cm
When reaching the value “M” the ratchet releases and the indicator shows the value.
Fig. 3
Torque control device.
Fig. 2
Newton
01ZNWThe package includes:- Newton torque control device- Dynamometric wrench (code
01TW1), - 2 steel connections (code
01TW12L - 01TW16L)
28 29
Surgical Boxes and Kits for TIXOS implants
Surgical Boxes
Designed to easily store the surgical instruments. The clear screen printing facilitates the identification of drills and accessories. The handling of the instruments is very easy and comfortable, thanks to the vertical position. The boxes are autoclavable at a temperature of 134°C/274°F at 2,1 bar for 5 minutes.The boxes have been designed to contain all the necessary instruments for the whole surgical protocol for all implant diameters; They may be completed with the desired instruments (optional, to be ordered separately) - see available Kits in the tables on the next page.
Box Tixos (empty) code 17V64
Box Tixos Short (empty) code 17V66
Surgical Boxes and Kits for TIXOS implants
Round cortical Drill
Cortical Drill
Twist Drill “Unica” (Pilot Drill), short
Twist Drill “Unica”, short
Stop Kit for Drill “Unica” 1,8 - 2,0 - 2,3 (4 pcs)
Stop Kit for Drill “Unica” 2,6 - 2,8 - 3,0 - 3,2 (4 pcs)
Stop Kit for Drill “Unica” 3,8 - 3,8 - 4,2 (4 pcs)
Extension tool
Twist Drill “Unica” (Pilot Drill), short
Twist Drill “Unica”, short
Bone tap for contra-angle
Friction. connection for c/angle, short
Manual connection, long
Friction. manual connection, short
Cortical Drill
Twist Drill “Unica” (Pilot Drill), short
Twist Drill “Unica”, short
Stop Kit for Drill “Unica” 1,8 to 4,2 (3 pcs)
11DS19S
05DSP18
05DSS20S
05DSS23S
05DSS26S
05DSS28S
05DSS30S
05DSS32S
05DSS35S
05DSS38S
05DSS42S
05DSS45S
05STPK1
05STPK2
05STPK3
01TEXT
05DSS20S
05DSS26S
05DSS28S
05DSS30S
01CTCAT37
01TLCAF245S
01TW24L
01TWF24S
05DSP18
05DSS20S
05DSS26S
05DSS32S
05DSS38S
05DSS42S
05STPK4
1,9
1,8
2,0
2,3
2,6
2,8
3,0
3,2
3,5
3,8
4,2
4,5
2,0
2,6
2,8
3,0
1,8
2,0
2,6
3,2
3,8
4,2
Countersink
Bone tap for contra-angle
Connection for contra-angle, long
Friction. connection for c/angle, short
Manual connection, long
Friction. manual connection, short
Driver, short
Driver, long
Paralleling pins (2 pcs)
Manual Digma
Ratchet
Alveolar probe
Open wrenches
Tweezers
Driver, short
Manual Digma
Ratchet
Alveolar probe
Open wrench
Tweezers
Extension tool
Bone tap for contra-angle
Friction. connection for c/angle, short
Manual connection, long
Friction. manual connection, short
Driver, short
Ratchet
01CST40
01CST50
01CST60
01CTCAT33
01CTCAT37
01CTCAT45
01TLCA245L
01TLCAF245S
01TW24L
01TWF24S
01TLMR12S
01TLMR12L
01PN2
01TLM
01TW
01SAP1
01T45
01T50
01SATT
01TLMR12S
01TLM
01TW
01SAP1
01T45
01SATT
01TEXT
01CTCATS50
01TLCAF245S
01TW24L
01TWF24S
01TLMR12S
01TW
4,0
5,0
6,0
3,3
3,7
4,5
1,25
1,25
4,5
5,0
1,25
4,5
1,25
Ø mm
Ø mm
Ø mm
Ø mm
Ø mm
Ø mm
CoMPLETE KiT for Tixos: Surgical box 17V64 + instruments set cod. 01VKCOMPT
BAsiC KiT for Tixos: Surgical box 17V64 + instruments set cod. 01VKBASICT
BAsiC KiT for Tixos short: Surgical box 17V66 + instruments set cod. 01VKBASICTS
30 31
Features of the abutment/implant connection
Surgical instruments for all implant lines
Surgical Accessories
Titanium grid
01SAT603
Length
5 mm
7 mm
9 mm
11 mm
13 mm
Assorted pack
In gr 1 titanium, it is Ideal to support the membrane in guided regeneration.
Dimensions 60x30 cm Thikness 0.2 mmHoles Ø 1,5 mmPitch 5 mm
Grid screws
01PN1455/501PN1457/501PN1459/501PN14511/501PN14513/501PN145/5
In gr 4 titanium, are used to fix membrane to the grid. Ø 1,45 mm - Hex head Ø 1,25 mmPkg 5 pcs
To insert the screws, use the universal drivers 01TLMR12L/S
Drill
01DS10S
In steel, is used to prepare the surgical site of grid screw or fixing pins.
Ø 1,0 mm - Length 2,7 mm
Length
2,7 mm
3,1 mm
3,5 mm
Length
6 cm
9 cm
Fixing pins
01PN252701PN253101PN2535
In gr 5 titanium, are used to fix membranes. Ø 0,55 mm - Head Ø 2,5 mmPkg 5 pcs
Insertion tool
01PNS01PNL
Gr 5 titanium
Box for membrane fi xing screws and pins
01V50
In aluminium, autoclavable.
RL E A D EI T A L I A
Friction in the prosthetic screws could be useful ?
Friction creates a resisting force opposing to the relative sliding of two bodies. It is a function of the pressure keeping them together by a force perpendicular to the surfaces of contact. It is proportional to a friction coeffi cient, depending on the materials in contact. It prevents the relative sliding of two bodies.
Why does the screw loosen?Because the friction braking effect is missing!The loss of contact between the two surfaces (abutment screw and im-plant internal threading) occures when an external force is higher than the pre-load set used during abutment fi xing at proper torque.In such a case, the force will cause the loss of the contact between the thread walls of the screw and the implant. It works by a screw lengthening bigger than the one caused by the pre-load. When the force is fi nished, the contact between abutment and implant head is lost. The screw is now free to loosen under the effect of vibrations, then the abutment and the relative crown begin to move.
The "Morse" effect (Fig. 1)
Inserting with pressure an element with a tapered external surface in a corresponding female element that has a hole with an identical tapered design, the friction between the two tapered surfaces occures. It locks the male cone in the female one.This locking remains effi cient also when the insertion force applied is over: this is the "Morse" effect.A suitable tapering of the cones guarantees such "locking" that will be-come a safe and natural engaging system for the screw that connects the abutment to the implant.
The screw with self-locking tapered head
The screw with self-locking tapered head is different from the traditional screw because of the tapered design of part of its vertical surface. Moreover, the abutment has a seat with the same tapering in the hole for the connec-tion screw. The taper of the cones is 5° (Fig. 2).The screw must be fi xed at 35 Ncm.The tests carried out did not report any screw breakage, even when applying a torque up to 90 Ncm. The auto-locking tapered screw has an elasticity limit of 950 N. This occures because the screw has a diameter 1.8 mm and is made of grade 5 titanium. Consequently, the screw can withstand axial loads up to its elastic limit without permanent deformations and loosenings.
How the auto-locking Morse effect is formed on the tapered screw
Obviously, in case occasional forces charged the screw with a higher load than its resistance, the screw would break. To face such event, a specifi c breakage area has been foreseen well outside the implant thread. It allows an easy extraction of the broken piece remained in the implant (Fig.3).
The connection with "self-locking tapered screw"
Push created by the insertion force
Friction between the tapered surfaces
Insertion force
5 °
Correct taperingof the shaft (3° - 8°)
5°
M1,8 x 0,35
Fig. 2
PSF or PSXF
Advantages of the tapered screw
- High mechanical stability
- Usable with all types of implants
- The thread and the screw-in cavity of the head are dimensioned to resist to torque loads of more than 50Ncm
- Defi nite breakage area in case of accidental breakage
- Limited costs of the system
Implant Abutment
Breakage area location Forced contact between the cones
Fig. 1
CYLINDRICAL
TAPERED
32 33
NOTE: All prosthetic components are available also in packaging of 10 pcs; ordering code ......../10
Prosthetic components TIXOS INTERNAL HEX Prosthetic components TIXOS INTERNAL HEX
Cylindrical Ø 3,3 Platform Ø 3,5
*Each frictioning abutment is equipped with PSF tapered passing screw. WARNING: insert the abutment taking care that the hex connection is perfectly accommodated in its site. Then fix it screwing the tapered screw in. Use driver TLM16S and connections TW16L (manual) / TLCA16L (contra-angle).
Height (h)
2 mm
3 mm
4 mm
5 mm
6 mm
7 mm
Transmucous Ø
4,5 mm
4,5 mm
4,5 mm
4,5 mm
4,5 mm
4,5 mm
Healing screws
- Titanium gr 5
- Different heights
Code
01HC332
01HC333
01HC334
01HC335
01HC336
01HC337
Packaging
1 piece
1 piece
1 piece
1 piece
1 piece
1 piece
Transmucous Ø
4,5 mm
Transmucous Ø
5,0 mm
Impression transfer with long screw
Smart transfer
- Titanium gr 5- Long passing screw h 14 mm, code PSTL
- Titanium gr 5 - Perfectly replicates the transmucous profile of the soft tissues, thus precisely transferring the implant position- It is assembled with the mount-transfer screwed onto the implant
Code
01TR33
Code
01TRS45
Packaging
1 piece
Packaging
1 piece
Transmucous Ø
5,0 mm
Impression transfer in three sections
- Titanium gr 5- Maintains the impression precision also in case of disparallelism
Code
01TR333
Packaging
1 piece
Platform Ø
3,5 mm
3,5 mm
Laboratory analog
- Titanium gr 5
Code
01AN33
01AN33/3
Packaging
1 piece
3 pieces
Height (h)
3 mm
4 mm
5 mm
6 mm
7 mm
TECAPEEK Healing screws
- Aesthetic
- Biocompatible
- Inhibition to bacterial attack
- Chemical inertia
- Autoclavable
- Passing screw
Code
01HPKC333
01HPKC334
01HPKC335
01HPKC336
01HPKC337
Packaging
1 piece
1 piece
1 piece
1 piece
1 piece
Ø
4,5 mm
4,5 mm
4,5 mm
4,5 mm
4,5 mm
Tecapeek temporary abutment with screw
- Biocompatibility
- For immediate temporary restorations
- Milled surface to facilitate resin adhesion
- Passing screw code PSS
Code
01APK33
01APKA33
Packaging
1 piece
1 piece
Transmucous h
0,5 mm
2,5 mm
Passing screw
PSS
PSS
PSK5
PSK6
PSK7
(1)
(2)
(3)
- Composed of: (1) transfer body (2) transfer cylinder (3) passing screw(1)
(2)
(3)
4,5
10,3
h1,1
1,1
1,0
1,3
h
9,0
0,5 2,5
Transmucous Ø
4,5 mm
4,5 mm
Standard straight abutment with screw Code
01ATI33
01ATIF33*
Packaging
1 piece
1 piece
Transmucous Ø
4,5 mm
4,5 mm
Straight shouldered abutment with screw
- Titanium gr 5
- Different diameters
- Adjustable
- Short passing screw (code PSTS)
Code
01AS33
01ASF33*
Packaging
1 piece
1 piece
for frictioning connection
for frictioning connection
Transmucous Ø
4,5 mm
4,5 mm
15° pre-angled abutment with screw Code
01AP1533
01AP15F33*
Packaging
1 piece
1 piecefor frictioning connection
Titanium base for Zirconia abutments
- Golden titanium gr 5
- Solid structure at implant-abutment interface
- Passing screw code PSSV in titanium gr 5 colour coded
Code
01ATIBZ33
Packaging
1 piece
- Titanium gr 5
- Different diameters
- Adjustable
- Short passing screw (code PSTS)
- Titanium gr 5
- Different diameters
- Adjustable
- Extra short passing screw (code PSTXS)
1,15
10,3
10,3
1,65
1,151,1
12,2
2,8
0,4
5
Zirconia abutment RP
- High aesthetics
- Adjustable
- Anatomical design
Code
01ATZ
01APZ
Packaging
1 piece
1 piece
Straight
17° pre-angled
Straight 17° pre-angled
6,5
4
The retentive wings exploit their natural spring effect
34 35
Prosthetic components TIXOS INTERNAL HEX Prosthetic components TIXOS INTERNAL HEX
Cylindrical Ø 3,3 Platform Ø 3,5
*Each frictioning abutment is equipped with PSF tapered passing screw. WARNING: insert the abutment taking care that the hex connection is perfectly accommodated in its site. Then fix it screwing the tapered screw in. Use driver TLM16S and connections TW16L (manual) / TLCA16L (contra-angle).
Transmucous Ø
4,5 mm
Overcasting titanium coping with screw
- Titanium gr 5
- Overcastable
- Ideal alloy gold or extra hard noble Title 500
- Max. pre-heating temperature 800 °C
- Passing screw PSS
Code
01ATIB33
Packaging
1 piece
INSTRUCTIONS FOR USEBefore proceeding with the modelling, sandblast or roughen the grooved surface with a drill. Prepare for the casting in the usual way; there are no contra-indications to the use of phosphate investments, even the rapid ones. Perform the preheating making sure not to exceed 800°C; the permanence time in the oven must not be too long max. 30-40 minutes. Use yellow gold alloy or gold extra hard alloy, title 500, eliminate the coating in excess in the usual way, making sure not to use acids that can corrode titanium (such as hydrofluoric acid) and eliminate the remaining oxide traces with a light sandblasting with glass balls (for example microblast etc.).Important: The base is not particularly suitable for ceramic overbaking. However, if you proceed with the ceramic coating, use ceramic suitable for titanium and, after each baking, remove the formed oxide by pickling or light sandblasting.
PRE-HEATING:720° for metal acrylic; 830° for metal ceramic30 min. from the final temperature suggested overcasting with noble alloy (60% gold)
Transmucous Ø
4,5 mm
4,5 mm
4,5 mm
4,5 mm
Castable abutment with screw Code
01ACL33
01ACL33/3
01ACL33/10
01ACLF33*
Packaging
1 piece
3 pieces
10 pieces
1 piecefor frictioning connection
- Abutment for cemented prothesis or for single screw retained crowns
- Different diameters
- Adjustable
- Short passing screw code PSS
4,3
1,55
1,90
13,0
Transmucous Ø
4,5 mm
4,5 mm
25° pre-angled abutment with screw Code
01AP2533
01AP25F33*
Packaging
1 piece
1 piecefor frictioning connection
- Titanium gr 5
- Different diameters
- Adjustable
- Extra short passing screw (code PSTXS)1,151,35
9,85
Transmucous Ø
4,5 mm
Castable abutment for cementing
- Adjustable
- Ideal gold alloy
- Title 500 extra hard noble
Code
01ACLC33
Packaging
1 piece
Transmucous Ø
4,5 mm
4,5 mm
Tissue abutment for screw retained prosthesis
- Titanium gr 5
- Different heights
- To be used with cylinder code ATIA and PSACL
- Ideal for bar retained prosthesis (overdenture)
Code
01ATS331
01ATS332
Packaging
1 piece
1 piece
Height (h)
1 mm
2 mm
Transmucous Ø
4,5 mm
Overcasting cylinder for tissue abutment
- Composed of:(1) overcasting titanium coping(2) castable adjustable(3) cover screw code SVCTS45V
Code
01ATIA
Packaging
1 piece
Transmucous Ø
4,5 mm
Castable cylinder for tissue abutment
- Adjustable
- For screw retained prothesis on tissue abutment (screw retained prosthesis or rotating type)
- Titanium screw adjustable in height code PSLA
Code
01PSACL
Packaging
1 piece
Screw code
PS1
PS2
Anti-rotation abutment for screw-retained prosthesis
- Titanium gr 5
- Anti-rotation abutment for screw retained prosthesis
- To be used with castable abutments code ACL33A - ACLR33A
- Extractor code PSES
- Passing screw with threaded head
Code
01AATI331A
01AATI332A
Packaging
1 piece
1 piece
Height (h)
1 mm
2 mm
1,16
10,0
h
2,2
h
1,5
9,6
10,0
1,0
Transmucous Ø
4,5 mm
4,5 mm
4,5 mm
Gold base
Cr-co base
Castable abutment gold or chrome-cobalt coping with screw
- Gold coping
- Castable
- Extractor code PSES
- Passing screw code PSS
- Availabe with gold or chrome-cobalt alloy base
Code
01AGCL33
01AGCLF33 (1)*
01ACRCL33
Packaging
1 piece
1 piece
1 piece
(1) tight the tapered passing screw at 40 Ncm0,75
13,75
Rotating/anti-rotation castable abutment with screw
1) Castable adjustable
2) Titanium gr 5 short fixing screw code PSAS
- Usable on anti-rotation abutment for screw retained prosthesis
- Rotating: ideal for bar retained prosthesis (overdenture)
- Anti-rotation: ideal for single crowns
Code
01ACLR33A
01ACL33A
Packaging
1 piece
1 piece
rotating
anti-rotation
rotating anti-rotation
8,0
36 37
NOTE: All prosthetic components are available also in packaging of 10 pcs; ordering code ......../10
Prosthetic components TIXOS INTERNAL HEX Prosthetic components TIXOS INTERNAL HEX
Cylindrical Ø 3,3 Platform Ø 3,5 Cylindrical Ø 3,75 Platform Ø 4,0
** Teflon retentive caps see page 67
Transmucous Ø
4,5 mm
4,5 mm
4,5 mm
4,5 mm
4,5 mm
Ball abutment
- Titanium gr 5
- Different heights
- For ball overdenture to be used with teflon caps OT-CAP Normo**
Code
01AB331
01AB332
01AB333
01AB334
01AB335
Packaging
1 piece
1 piece
1 piece
1 piece
1 piece
Height (h)
1 mm
2 mm
3 mm
4 mm
5 mm
Height (h)
1 mm
2 mm
3 mm
4 mm
Anti-rotating two-piece ball abutment
- Titanium gr 5
- 1) Ball abutment base Ø 4,5, height 1 mm
- 2) Ball abutment body
- Different heights
- For ball overdenture to be used with teflon caps OT-CAP Normo**
Code
01ABA332
01ABA333
01ABA334
01ABA335
Packaging
1 piece
1 piece
1 piece
1 piece
(2)
(2)
(2)
(2)
Titanium Trial kit
- Includes 6 titanium trial abutments: 2x straight, 2x pre-angled 25°, 2x pre-angled 15°
- The trial abutments are inserted on the implant or on the analog to select the ideal support
- The trial abutments only are autoclavable at 121°C
Code
01K61
Packaging
6 pieces
2)
1)
h
1
h
1,1
Height (h)
2 mm
3 mm
4 mm
5 mm
6 mm
7 mm
Healing screw (transgingival portion ø 4,5)
- Titanium gr 5
- Different heights
Code
01HCC42
01HCC43
01HCC44
01HCC45
01HCC46
01HCC47
Packaging
1 piece
1 piece
1 piece
1 piece
1 piece
1 piece
Transmucous Ø
4,5 mm
4,5 mm
4,5 mm
4,5 mm
4,5 mm
4,5 mm
Ø 4,0
Ø 4,5
Height (h)
4 mm
5 mm
6 mm
Healing screw (transgingival portion ø 6,0)
- Titanium gr 5
- Different heights
Code
01HCC64
01HCC65
01HCC66
Packaging
1 piece
1 piece
1 piece
Transmucous Ø
6 mm
6 mm
6 mmØ 4,0
Ø 6,0
TECAPEEK Healing screw Height (h)
3 mm
4 mm
5 mm
6 mm
7 mm
- Aesthetic
- Biocompatible
- Inhibition to bacterial attack
- Chemical inertia
- Autoclavable
- Passing screw
Code
01HPKCC43
01HPKCC44
01HPKCC45
01HPKCC46
01HPKCC47
Packaging
1 piece
1 piece
1 piece
1 piece
1 piece
Transm. Ø
4,5 mm
4,5 mm
4,5 mm
4,5 mm
4,5 mm
3 mm
4 mm
5 mm
6 mm
7 mm
01HPKCC63
01HPKCC64
01HPKCC65
01HPKCC66
01HPKCC67
1 piece
1 piece
1 piece
1 piece
1 piece
6 mm
6 mm
6 mm
6 mm
6 mm
h
h
Impression transfer with long screw
- Titanium gr 5
- Long passing screw h 14 mm, code PSTL
Code
01TRC4
Packaging
1 piece
Transmucous Ø
4,5 mm9,30
NOTE:It is possible to apply the so called “Platform switching”, i.e. to apply a narrower abutment on a larger platform, so that the possible inflammation is spread on an hori-zontal area rather than on a vertical wall. With this technique the crestal bone resorption can be avoided thus enhancing also the volume and quality of the soft tissues (better stability, better aesthetic).
Implants with platform Ø 4 g Prosthetic component with platform Ø 3.5Implants with platform Ø 5 g Prosthetic component with platform Ø 4Implants with platform Ø 6 g Prosthetic component with platform Ø 5
h
Impression transfer with screw for pick-up technique
- Titanium gr 5
- Long passing screw code PSTTL*
- To be used with individual open tray (pick-up technique)
Code
01TRCP4
Packaging
1 piece
Transmucous Ø
4,5 mm
12,90
* Also available as spare part the extra long screw code PSTTLL
Pass. screw
PSS
PSS
PSK5
PSK6
PSK7
PSS
PSS
PSK5
PSK6
PSK7
Height (A)
1,1 mm
1,1 mm
1,1 mm
1,1 mm
1,1 mm
1,1 mm
1,5 mm
1,5 mm
1,5 mm
1,5 mm
1,1
1,5
A
(1) Locator abutments are manufactured and patented by Zest Anchors. Locator is a trademark of Zest Anchors, Inc.
NOTE: Ask for the detailed list of accessories
Height (h)
1,0 mm
2,0 mm
3,0 mm
4,0 mm
Locator® Abutment(1)
- Titanium gr 5. TiN coated
- Different heights
- Resin replaceable retainers for disparallelism between implants:
up to 20° - standard retainers (blue, pink, clear); up to 40° - extra retainers (orange, red, green);
- Accessories
Code
5102905
5102906
5102907
5102908
Packaging
1 piece
1 piece
1 piece
1 piece
h
1,5
coming soon
SMART TRANSFERSee page 32
38 39
Prosthetic components TIXOS INTERNAL HEX Prosthetic components TIXOS INTERNAL HEX
Cylindrical Ø 3,75 Platform Ø 4,0
*Each frictioning abutment is equipped with PSF tapered passing screw. WARNING: insert the abutment taking care that the hex connection is perfectly accommodated in its site. Then fix it screwing the tapered screw in. Use driver TLM16S and connections TW16L (manual) / TLCA16L (contra-angle).
(1)
(2)
(3)
NOTE:It is possible to apply the so called “Platform switching”, i.e. to apply a narrower abutment on a larger platform, so that the possible inflammation is spread on an hori-zontal area rather than on a vertical wall. With this technique the crestal bone resorption can be avoided thus enhancing also the volume and quality of the soft tissues (better stability, better aesthetic).
Implants with platform Ø 4 g Prosthetic component with platform Ø 3.5Implants with platform Ø 5 g Prosthetic component with platform Ø 4Implants with platform Ø 6 g Prosthetic component with platform Ø 5
Transmucous Ø
4,5 mm
Impression transfer in three sectionsfor Pick-up technique
- Titanium gr 5- Maintains the impression precision also in case of disparallelism
Code
01TR403
Packaging
1 piece
Platform Ø
4,0 mm
4,0 mm
Laboratory analog
- Titanium gr 5
Code
01ANC4
01ANC4/3
Packaging
1 piece
3 pieces
Transmucous Ø
4,5 mm
4,5 mm
6,0 mm
Standard straight abutment with screw
- Titanium gr 5
- Different diameters
- Adjustable
- Short passing screw (code PSS)
Code
01ATIC4
01ATICF4*
01ATIC6
Packaging
1 piece
1 piece
1 piece
for frictioning connection
Tecapeek temporary abutment with screw
- Biocompatibility
- For immediate temporary restorations
- Milled surface to facilitate resin adhesion
- Passing screw code PSS
Code
01APK4
01APKA4
Packaging
1 piece
1 piece
Transmucous h
0,5 mm
2,5 mm
- Composed of: (1) transfer body (2) transfer cylinder (3) passing screw(1)
(2)
(3)
4,5
10,3
10,0
0,5 2,5
A
1,15
Height (A)
1,15 mm
1,15 mm
1,50 mm
Zirconia abutment RP
Titanium base for Zirconia abutments
- High aesthetics
- Adjustable
- Anatomical design
- Golden titanium gr 5
- Solid structure at implant-abutment interface
- Passing screw code PSSG in titanium gr 5 colour coded
Code
01ATZ
01APZ
Code
01ATIBZC4
Packaging
1 piece
1 piece
Packaging
1 piece
Straight
17° pre-angled
Straight 17° pre-angled
Transmucous Ø
4,5 mm
4,5 mm
6,0 mm
Straight shouldered abutment with screw
- Titanium gr 5
- Different diameters
- Adjustable
- Short passing screw (code PSS)
Code
01ASC4
01ASCF4*
01ASC6
Packaging
1 piece
1 piece
1 piece
*for frictioning connection
Transmucous Ø
4,5 mm
4,5 mm
6,0 mm
15° pre-angled abutment with screw
- Titanium gr 5
- Different diameters
- Adjustable
- Short passing screw (code PSS)
Code
01APC1540
01APC15F40*
01APC601540
Packaging
1 piece
1 piece
1 piece
*for frictioning connection
Transmucous Ø
4,5 mm
4,5 mm
6,0 mm
25° pre-angled abutment with screw
- Titanium gr 5
- Different diameters
- Adjustable
- Short passing screw (code PSS)
Code
01APC2540
01APC25F40*
01APC602540
Packaging
1 piece
1 piece
1 piece*for frictioning connection
10,3
1,65
1,15
1,15
1,35
A
13,0
10,5
9,6
0,9
Height (A)
1,35 mm
1,35 mm
1,80 mm
Transmucous Ø
4,5 mm
4,5 mm
4,5 mm
Gold base
Cr-co base
Castable abutment gold or chrome-cobalt coping with screw
- Gold coping
- Castable
- Extractor code PSES
- Passing screw code PSS
- Availabe with gold or chrome-cobalt alloy base
Code
01APSG4
01APSFG4* (1)
01APSCR4
Packaging
1 piece
1 piece
1 piece
(1) tight the tapered passing screw at 40 Ncm
PRE-HEATING:720° for metal acrylic; 830° for metal ceramic30 min. from the final temperature suggested overcasting with noble alloy (60% gold)
6,5
4
2,8
0,3
40 41
Prosthetic components TIXOS INTERNAL HEX Prosthetic components TIXOS INTERNAL HEX
Cylindrical Ø 3,75
** Teflon retentive caps see page 67*Each frictioning abutment is equipped with PSF tapered passing screw. WARNING: insert the abutment taking care that the hex connection is perfectly accommodated in its site. Then fix it screwing the tapered screw in. Use driver TLM16S and connections TW16L (manual) / TLCA16L (contra-angle).
Screw code
PS1
PS2
Anti-rotation abutment with screw
- Titanium gr 5
- Anti-rotation abutment for screw retained prosthesis
- to be used with castable abutments code ACLA - ACLRC4A
- Extractor code PSES
- Passing screw with threaded head
Code
01AC1A
01AC2A
Packaging
1 piece
1 piece
Height (h)
1 mm
2 mm
Rotating/anti-rotation castable abutment with screw
1) Castable adjustable
2) Titanium gr 5 short fixing screw code PSAS
- Usable with anti-rotation abutment for screw retained prosthesis
- Rotating: ideal for bar retained prosthesis (overdenture)
- Anti-rotation: ideal for single crowns
Code
01ACLRC4A
01ACLA
Packaging
1 piece
1 piece
Adjustable abutment
- Titanium gr 5
- Short passing screw code PSS
Code
01ATIM4
Packaging
1 piece
Height (h)
1 mm
2 mm
3 mm
4 mm
Anti-rotation two-pieces ball abutment
- Titanium gr 5
1) Ball abutment base Ø 4,5 mm, height 1 mm
2) Ball abutment body
- Different heights
- For ball overdenture to be used with teflon caps OT-CAP Normo**
Code
01ABA402
01ABA403
01ABA404
01ABA405
Packaging
1 piece
1 piece
1 piece
1 piece
(2)
(2)
(2)
(2)
Transmucous Ø
4,5 mm
4,5 mm
4,5 mm
4,5 mm
4,5 mm
Ball abutment
- Titanium gr 5
- Different heights
- For ball overdenture to be used with teflon caps OT-CAP Normo**
Code
01ABC451
01ABC452
01ABC453
01ABC454
01ABC455
Packaging
1 piece
1 piece
1 piece
1 piece
1 piece
Height (h)
1 mm
2 mm
3 mm
4 mm
5 mm
rotating
anti-rotation
rotating anti-rotation
Max. Ø
6,9 mm
(2)h
1,5
8,0
8,0
h
h
0,6
(1)
1,0
Transmucous Ø
4,5 mm
Abutment for immediate loading
- Titanium gr 5 + POM-C
- Short passing screw code PSS
Code
01ACI4
Packaging
1 piece14,35
2,05
(1) Locator abutments are manufactured and patented by Zest Anchors. Locator is a trademark of Zest Anchors, Inc.
NOTE: Ask for the detailed list of accessories
Height (h)
1,0 mm
2,0 mm
3,0 mm
4,0 mm
Locator® Abutment(1)
- Titanium gr 5. TiN coated
- Different heights
- Resin replaceable retainers for disparallelism between implants:
up to 20° - standard retainers (blue, pink, clear); up to 40° - extra retainers (orange, red, green);
- Accessories
Code
5102917
5102918
5102919
5102920
Packaging
1 piece
1 piece
1 piece
1 piece
h
1,5
Platform Ø 4,0
Transmucous Ø
4,5 mm
Castable abutment for cementing
- Adjustable
- Ideal gold alloy
- Title 500 extra hard noble
Code
01ACCLC4
Packaging
1 piece11,2
1,55
Transmucous Ø
4,5 mm
4,5 mm
4,5 mm
4,5 mm
4,5 mm
6,0 mm
Castable abutment with screw
- Abutment for cemented prothesis or for single screw retained crowns
- Different diameters
- Adjustable
- Short passing screw code PSS
Code
01ACCL4
01ACCL4/3
01ACCL4/10
01ACCLF4*
01ACCLF4/10*
01ACCL6
Packaging
1 piece
3 pieces
10 pieces
1 piece
10 pieces
1 piecefor frictioning connection
13,0
2,05
42 43
Prosthetic components TIXOS INTERNAL HEX Prosthetic components TIXOS INTERNAL HEX
Cylindrical Ø 4,5 Platform Ø 5,0
*Each frictioning abutment is equipped with PSF tapered passing screw. WARNING: insert the abutment taking care that the hex connection is perfectly accommodated in its site. Then fix it screwing the tapered screw in. Use driver TLM16S and connections TW16L (manual) / TLCA16L (contra-angle).
Transmucous Ø
5,0 mm
5,0 mm
5,0 mm
5,0 mm
Castable abutment with screw
- Abutment for cemented prothesis or for single screw retained crowns
- Different diameters
- Adjustable
- Short passing screw code PSS
Code
01ACL50
01ACL50/10
01ACLF50*
01ACLF50/10*
Packaging
1 piece
10 pieces
1 piece
10 pieces
for frictioning connection
for frictioning connection
Transmucous Ø
6,0 mm
15° pre-angled abutment with screw
- Titanium gr 5
- Different diameters
- Adjustable
- Short passing screw (code PSTXS)
Code
01AP1560
Packaging
1 piece10,5
13,0
13,0
1,41,1
0,5
1,95
Transmucous Ø
5,0 mm
5,0 mm
5,0 mm
Gold base
Cr-co base
Castable abutment gold or chrome-cobalt coping with screw
- Gold coping
- Castable
- Extractor code PSES
- Passing screw code PSS
- Availabe with gold or chrome-cobalt alloy base
Code
01AGCL45
01AGCLF45* (1)
01ACRCL45
Packaging
1 piece
1 piece
1 piece
(1) tight the tapered passing screw at 40 Ncm
PRE-HEATING:720° for metal acrylic; 830° for metal ceramic30 min. from the final temperature suggested overcasting with noble alloy (60% gold)
NOTE:It is possible to apply the so called “Platform switching”, i.e. to apply a narrower abutment on a larger platform, so that the possible inflammation is spread on an hori-zontal area rather than on a vertical wall. With this technique the crestal bone resorption can be avoided thus enhancing also the volume and quality of the soft tissues (better stability, better aesthetic).
Implants with platform Ø 4 g Prosthetic component with platform Ø 3.5Implants with platform Ø 5 g Prosthetic component with platform Ø 4Implants with platform Ø 6 g Prosthetic component with platform Ø 5
Transmucous Ø
5,0 mm
5,0 mm
Standard straight abutment with screw
- Abutment for cemented prosthesis
- Titanium gr 5
- Different diameters
- Adjustable
- Short passing screw (code PSTS)
Code
01ATI5
01ATIF5*
Packaging
1 piece
1 piecefor frictioning connection10,4
1,5
Height (h)
2 mm
4 mm
6 mm
Transmucous Ø
5,0 mm
5,0 mm
5,0 mm
Healing screw
- Titanium gr 5
- Different heights
Code
01HC502
01HC504
01HC506
Packaging
1 piece
1 piece
1 piece
TECAPEEK Healing screw Height (h)
3 mm
4 mm
6 mm
- Aesthetic
- Biocompatible
- Inhibition to bacterial attack
- Chemical inertia
- Autoclavable
- Passing screw
Code
01HPKC503
01HPKC504
01HPKC506
Passing screw
PSS
PSS
PSK6
Packaging
1 piece
1 piece
1 piece
Transmucous Ø
5 mm
5 mm
5 mm
Transmucous Ø
5,0 mm
Impression transfer with long screw
- Titanium gr 5- Long passing screw h 14 mm, code PSTL
Code
01TR50
Packaging
1 piece
Platform Ø
5,0 mm
Laboratory analog
- Titanium gr 5
Code
01AN45
Packaging
1 piece
Tecapeek temporary abutment with screw
- Biocompatibility
- For immediate temporary restorations
- Milled surface to facilitate resin adhesion
- Passing screw code PSS
Code
01APK5
01APKA5
Packaging
1 piece
1 piece
Transmucous h
0,5 mm
2,5 mm
h
9,0
0,5 2,5
1,2
1,2
h
1,2
NOTE: All prosthetic components are available also in packaging of 10 pcs; ordering code ......../10
SMART TRANSFERSee page 32
44 45
NOTE: All prosthetic components are available also in packaging of 10 pcs; ordering code ......../10
Prosthetic components TIXOS INTERNAL HEX Prosthetic components TIXOS INTERNAL HEX
Cylindrical Ø 5,5
Height (h)
2 mm
4 mm
6 mm
Transmucous Ø
6,0 mm
6,0 mm
6,0 mm
Healing screw
- Titanium gr 5- Different heights
Code
01HC602
01HC604
01HC606
Packaging
1 piece
1 piece
1 piece
Transmucous Ø
6,0 mm
Impression transfer with long screw
- Titanium gr 5- Long passing screw h 14 mm, code PSTL
Code
01TR60
Packaging
1 piece
Platform Ø
6,0 mm
Laboratory analog
- Titanium gr 5
Code
01AN55
Packaging
1 piece
Transmucous Ø
6,0 mm
6,0 mm
Standard straight abutment with screw
- Abutment for cemented prosthesis
- Titanium gr 5
- Different diameters
- Adjustable
- Short passing screw Code PSS
Code
01ATI6055
01ATI60F55*
Packaging
1 piece
1 piecefor frictioning connection
NOTE:It is possible to apply the so called “Platform switching”, i.e. to apply a narrower abutment on a larger platform, so that the possible inflammation is spread on an hori-zontal area rather than on a vertical wall. With this technique the crestal bone resorption can be avoided thus enhancing also the volume and quality of the soft tissues (better stability, better aesthetic).
Implants with platform Ø 4 g Prosthetic component with platform Ø 3.5Implants with platform Ø 5 g Prosthetic component with platform Ø 4Implants with platform Ø 6 g Prosthetic component with platform Ø 5
TECAPEEK Healing screw Height (h)
3 mm
4 mm
6 mm
- Aesthetic
- Biocompatible
- Inhibition to bacterial attack
- Chemical inertia
- Autoclavable
- Passing screw
Code
01HPKC603
01HPKC604
01HPKC606
passing screw
PSS
PSS
PSK6
Packaging
1 piece
1 piece
1 piece
Transmucous Ø
6 mm
6 mm
6 mm
h
9,0
8,9
1,2
1,2
2,0
h
1,2
Transmucous Ø
6,5 mm
Castable abutment for cementing
- Adjustable
- Ideal gold alloy
- Title 500 extra hard
Code
01ACLC6
Packaging
1 piece10,2
1,55
Cylindrical Ø 4,5 Platform Ø 5,0 Platform Ø 6,0
** Teflon retentive caps see page 67
Transmucous Ø
5,5 mm
Castable abutment for cementing
- Adjustable
- Ideal gold alloy
- Title 500 extra hard noble
Code
01ACLC5
Packaging
1 piece
10,2
1,55
Transmucous Ø
5,0 mm
5,0 mm
5,0 mm
Ball abutment
- Titanium gr 5
- Different heights
- For ball overdenture to be used with teflon caps OT-CAP Normo**
Code
01AB502
01AB503
01AB504
Packaging
1 piece
1 piece
1 piece
Height (h)
2 mm
3 mm
4 mm
Screw code
PS1
Anti-rotation abutment with screw
- Titanium gr 5
- Anti-rotation abutment for screw retained prosthesis
- to be used with castable abutments code ACL45A - ACLR45A
- Extractor code PSES
- Passing screw with threaded head
Code
01AATI451A
Packaging
1 piece
Height (h)
1 mm
Rotating/anti-rotation castable abutment with screw
1) Castable adjustable
2) Titanium gr 5 short fixing screw code PSAS
- Usable with anti-rotation abutment for screw retained prosthesis
- Rotating: ideal for bar retained prosthesis (overdenture)
- Anti-rotation: ideal for single crowns
Code
01ACLR45A
01ACL45A
Packaging
1 piece
1 piece
rotating
anti-rotation
h
h
rotating anti-rotation
h
1,5
8,0
h
SMART TRANSFERSee page 32
46 47
NOTE: All prosthetic components are available also in packaging of 10 pcs; ordering code ......../10
Cylindrical Ø 3,3 e 3,75 Platform Ø 4,1Cylindrical Ø 5,5 Platform Ø 6,0
Prosthetic components TIXOS INTERNAL HEX Prosthetic components TIXOS EXTERNAL HEX
* Also available as spare part short screws PSXTS and extra-short screws PSTXXS
Height (h)
3 mm
4 mm
5 mm
6 mm
7 mm
Healing screw (transgingival portion Ø 4,5)
- Titanium gr 5
- Different heights
Code
01HCX333
01HCX334
01HCX335
01HCX336
01HCX337
Packaging
1 piece
1 piece
1 piece
1 piece
1 piece
Transmucous Ø
4,5 mm
4,5 mm
4,5 mm
4,5 mm
4,5 mm
Height
4 mm
5 mm
6 mm
7 mm
Healing screw (transgingival portion Ø 6,0)
- Titanium gr 5
- Different heights
Code
01HCX60334
01HCX60335
01HCX60336
01HCX60337
Packaging
1 piece
1 piece
1 piece
1 piece
Transmucous Ø
6 mm
6 mm
6 mm
6 mm
Impression transfer with long screw
Impression transfer for Tixos Short
- Titanium gr 5
- Long passing screw h 14 mm, code PSXTL*
- Titanium gr 5
- Long passing screw h 14 mm, code PSXTL*
Code
01TRX33
Code
01TRXS41
Packaging
1 piece
Packaging
1 piece
Transmucous Ø
4,5 mm
Transmucous Ø
5,5 mm
Height
4 mm
5 mm
6 mm
7 mm
Code
01HPKCX60334
01HPKCX60335
01HPKCX60336
01HPKCX60337
Packaging
1 piece
1 piece
1 piece
1 piece
Transm. Ø
6 mm
6 mm
6 mm
6 mm
TECAPEEK Healing screw Height
4 mm
5 mm
6 mm
7 mm
- Aesthetic
- Biocompatible
- Inhibition to bacterial attack
- Chemical inertia
- Autoclavable
- Passing screw
Code
01HPKCX334
01HPKCX335
01HPKCX336
01HPKCX337
Packaging
1 piece
1 piece
1 piece
1 piece
Transm. Ø
4,5 mm
4,5 mm
4,5 mm
4,5 mm
Pass. screw
PSTXXS
PSXTS
PSKX6
PSKX7
Pass. screw
PSTXXS
PSXTS
PSKX6
PSKX7
Ø 4,0
Ø 4,5
9,5
8
h
h
Ø 4,0
Ø 6,0
h
1,3
1,5
A
1,4
2,0
Height (A)
1,5 mm
1,5 mm
1,5 mm
1,5 mm
Height (A)
1,3 mm
1,3 mm
1,3 mm
1,3 mm
** Teflon retentive caps see page 67
*Each frictioning abutment is equipped with PSF tapered passing screw.WARNING: insert the abutment taking care that the hex connection is perfectly accommodated in its site. Then fix it screwing the tapered screw in. Use driver TLM16S and connections TW16L (manual) / TLCA16L (contra-angle).
Transmucous Ø
6,0 mm
6,0 mm
Castable abutment with screw
- Abutment for cemented prosthesis or for single screwed crowns
- Different diameters
- Adjustable
- Short passing screw code PSS
Code
01ACL60
01ACLF60*
Packaging
1 piece
1 piecefor frictioning connection
Transmucous Ø
6,0 mm
6,0 mm
6,0 mm
Ball abutment
- Titanium gr 5
- Different heights
- For ball overdenture to be used with Teflon caps OT-CAP normo**
Code
01AB602
01AB603
01AB604
Packaging
1 piece
1 piece
1 piece
Height (h)
2 mm
3 mm
4 mmh
13,0
13,0
0,5
2,0
Transmucous Ø
6,0 mm
6,0 mm
6,0 mm
Gold base
Cr-co base
Castable abutment gold or chrome-cobalt coping with screw
- Gold coping
- Castable
- Extractor code PSES
- Passing screw code PSS
- Availabe with gold or chrome-cobalt alloy base
Code
01AGCL55
01AGCLF55* (1)
01ACRCL55
Packaging
1 piece
1 piece
1 piece
(1) tight the tapered passing screw at 40 Ncm
PRE-HEATING:720° for metal acrylic; 830° for metal ceramic30 min. from the final temperature suggested overcastting with noble alloy (60% gold)
Screw code
PS1
Anti-rotation abutment with screw
- Titanium gr 5
- Anti-rotation abutment for screw retained prosthesis
- To be used with castable abutments code ACL55A – ACLR55A
- Extractor code PSES
- Passing screw with threaded head
Code
01AATI551A
Packaging
1 piece
Height (h)
1 mmh
1,5
Rotating/anti-rotation castable abutment with screw
1) Castable adjustable
2) Titanium gr 5 short fixing screw code PSAS
- Usable with anti-rotation abutment for screw retained prosthesis
- Rotating: ideal for bar retained prosthesis (overdenture)
- Anti-rotation: ideal for single crowns
Code
01ACLR55A
01ACL55A
Packaging
1 piece
1 piece
rotating
anti-rotation
rotating anti-rotation
8,0
NOTE: All prosthetic components are available also in packaging of 10 pcs; ordering code ......../10
SMART TRANSFERSee page 32
48 49
Prosthetic components TIXOS EXTERNAL HEX Prosthetic components TIXOS EXTERNAL HEX
Cylindrical Ø 3,3 e 3,75 Platform Ø 4,1
*Each frictioning abutment is equipped with PSXF tapered passing screw. WARNING: insert the abutment taking care that the hex connection is perfectly accommodated in its site. Then fix it screwing the tapered screw in. Use driver TLM16S and connections TW16L (manual) / TLCA16L (contra-angle).
Platform Ø
4,0 mm
Laboratory analog
- Titanium gr 5
Code
01ANX33
Packaging
1 piece
Transmucous Ø
4,5 mm
4,5 mm
6,0 mm
Standard straight abutment with screw
- Titanium gr 5
- Different diameters
- Adjustable
- Short passing screw code PSXTS
Code
01ATIX33
01ATIXF33*
01ATI60X33
Packaging
1 piece
1 piece
1 piecefor frictioning connection
Transmucous Ø
4,5 mm
4,5 mm
6,0 mm
Straight shouldered abutment with screw
- Titanium gr 5
- Different diameters
- Adjustable
- Short passing screw code PSXTS
Code
01AXS33
01AXSF33*
01AXS6033
Packaging
1 piece
1 piece
1 piecefor frictioning connection
Transmucous Ø
4,5 mm
Abutment for gluing technique
- Titanium gr 5 + POM-C
- Short passing screw code PSXTS
Code
01ACIX4
Packaging
1 piece
Tecapeek rotating/anti-rotation temporary abutment with screw
- Biocompatibility
- For immediate temporary restorations
- Milled surface to facilitate resin adhesion
- Passing screw code PSXTS
Packaging
1 piece
1 piece
1 piece
1 piece
Transmucous h
0,5 mm
0,5 mm
2,5 mm
2,5 mm
Code
01APKXR33
01APKX33
01APKXRA33
01APKXA33
rotating
anti-rotation
rotating
anti-rotation
10,3
10,3
15
A
1,7
0,5 2,5
A
Height (A)
1,3 mm
1,3 mm
1,6 mm
Height (A)
1,7 mm
1,7 mm
2,2 mm
Transmucous Ø
4,5 mm
15° pre-angled abutment with screw
- Titanium gr 5
- Different diameters
- Adjustable
- Extra short passing screw code PSTXXS
Code
01APX1533
Packaging
1 piece
Transmucous Ø
4,5 mm
25° pre-angled abutment with screw
- Titanium gr 5
- Different diameters
- Adjustable
- Extra short passing screw code PSTXXS
Code
01APX2533
Packaging
1 piece
13,0
10,0
10,3
1,25
1,5
1,9
0,75
1,0
Impression transfer with screw for pick-up technique
- Titanium gr 5
- Long passing screw code PSXTTL*
- To be used with individual open tray (pick-up technique)
Code
01TRXP33
Packaging
1 piece
Transmucous Ø
4,5 mm13,5
*Also available as spare part the extra long screw code PSXTTLL
Transmucous Ø
4,5 mm
4,5 mm
4,5 mm
4,5 mm
Gold base
Cr-co base
Castable abutment gold or chrome-cobalt coping with screw
- Gold coping
- Castable
- Extractor code PSES
- Passing screw code PSTXXS
- Availabe with gold or chrome-cobalt alloy base
Code
01AGCLRX33
01AGCLX33
01AGCLXF33* (1)
01ACRCLX33
Packaging
1 piece
1 piece
1 piece
1 piece
(1) tight the tapered passing screw at 40 Ncm
rotating
anti-rotation
PRE-HEATING:720° for metal acrylic; 830° for metal ceramic30 min. from the final temperature suggested overcasting with noble alloy (60% gold)
50 51
Prosthetic components TIXOS EXTERNAL HEX Prosthetic components TIXOS EXTERNAL HEX
** Teflon retentive caps see page 67
(1) Locator abutments are manufactured and patented by Zest Anchors. Locator is a trademark of Zest Anchors, Inc.
NOTE: Ask for the detailed list of accessories
Rotating/Anti-rotation castable abutment with screw
1) Castable adjustable
2) Titanium gr 5 short fixing screw code PSAS
- Usable with anti-rotation abutment for screw-retained denture
- Rotating: ideal for bar retained prosthesis (overdenture)
- Anti-rotation: ideal for single crowns
Code
01ACLRX33A
01ACLX33A
Packaging
1 piece
1 piece
rotating
anti-rotation
Transmucous Ø
4,5 mm
4,5 mm
4,5 mm
4,5 mm
Ball abutment
- Titanium gr 5
- Different heights
- For ball overdenture to be used with teflon caps OT-CAP Normo**
Code
01ABX332
01ABX333
01ABX334
01ABX335
Packaging
1 piece
1 piece
1 piece
1 piece
Height (h)
2 mm
3 mm
4 mm
5 mm
Height (h)
0,8 mm
1,8 mm
2,8 mm
3,8 mm
Height (h)
1,0 mm
2,0 mm
3,0 mm
4,0 mm
Two-pieces anti-rotation ball abutment
Locator® Abutment(1)
- Titanium gr 5
- 1) Ball abutment base ø 4,5, height 1,30 mm
- 2) Ball abutment body
- Different heights
- For ball overdenture to be used with teflon caps OT-CAP Normo**
- Titanium gr 5. TiN coated
- Different heights
- Resin replaceable retainers for disparallelism between implants:
up to 20° - standard retainers (blue, pink, clear); up to 40° - extra retainers (orange, red, green);
- Accessories
Code
01ABXA2
01ABXA3
01ABXA4
01ABXA5
Code
5102911
5102912
5102913
5102914
Packaging
1 piece
1 piece
1 piece
1 piece
Packaging
1 piece
1 piece
1 piece
1 piece
(2)
(2)
(2)
(2)
Code
01K60
Packaging
6 pieces
Screw code
PSX1
PSX2
Anti-rotation abutment with screw
- Titanium gr 5
- Anti-rotation abutment for screw retained prosthesis
- To be used with castable abutments code ACLX33A – ACLRX33A
- Extractor code PSES
- Passing screw with threaded head
Code
01AATIX331A
01AATIX332A
Packaging
1 piece
1 piece
Height (H)
1 mm
2 mm
(2)
(1)
h
h
h
1,30
1,5
h
1,5
8,0
0,5
rotating anti-rotation
Cylindrical Ø 3,3 e 3,75 Platform Ø 4,1
Transmucous Ø
4,5 mm
4,5 mm
Overcasting titanium coping with screw
- Titanium gr 5
- Overcastable
- Ideal alloy gold or extra hard noble Title 500
- Pre-heating temperature max. 800 °C
- Passing screw code PSTXXS
Code
01ATIBX33
01ATIBXF33*
Packaging
1 piece
1 piecefor frictioning connection
4,7
1,9
rotating anti-rotation
Rotating/anti-rotation castable abutmentwith screw
- Adjustable
- Anti-rotation for single crowns
- Rotation for bar retained prosthesis (overdenture)
- Short passing screw code PSCLXS
Code
01CLRX33
01CLRX33/10
01CLX33
01CLX33/10
01CLXF33*
Packaging
1 piece
10 pieces
1 piece
10 pieces
1 piece
rotating
rotating
anti-rotation
anti-rotation
Transmucous Ø
4,5 mm
4,5 mm
4,5 mm
4,5 mm
4,5 mmfor frictioning connection12,7
1,7
*Each frictioning abutment is equipped with PSXF tapered passing screw. WARNING: insert the abutment taking care that the hex connection is perfectly accommodated in its site. Then fix it screwing the tapered screw in. Use driver TLM16S and connections TW16L (manual) / TLCA16L (contra-angle).
Titanium Trial kit
- Includes 6 titanium trial abutments: 2x straight, 2x pre-angled 25°, 2x pre-angled 15°
- The trial abutments are inserted on the implant or on the analog to select the ideal support
- The trial abutments only are autoclavable at 121°C
coming soon
52 53
NOTE: All prosthetic components are available also in packaging of 10 pcs; ordering code ......../10
NOTE: All prosthetic components are available also in packaging of 10 pcs; ordering code ......../10
Prosthetic components TIXOS EXTERNAL HEX Prosthetic components TIXOS EXTERNAL HEX
Straight abutment
- Titanium gr 5
- With supporting tool for easy positioning
- Passing screw (hex section)
Code
01AATX1
01AATX2
01AATX3
Passing screw
PSXQA1
PSXQA2
PSXQA3
Packaging
1 piece
1 piece
1 piece
Height (h)
1 mm
2 mm
3 mm
17° pre-angled abutment with screw
- Titanium gr 5
- With titanium supporting tool for easy positioning
- Passing screw (torque) code PSXQP
Code
01AAPX17
Packaging
1 piece
Height
3,9 mm
Height
5,2 mm
30° pre-angled abutment with screw
- Titanium gr 5
- With titanium supporting tool for easy positioning
- Passing screw (torque) code PSXQP
Code
01AAPX30
Packaging
1 piece
Abutment cap
- In POM-C
- Passing screw (torque) code PSXQA
Code
01HQX
Packaging
1 piece4,25
h
2,15
4
Cylindrical Ø 3,3 e 3,75
Cylindrical Ø 3,3 e 3,75
Platform Ø 4,1
Platform Ø 4,1
Temporary for abutment
Castable abutment
- Titanium gr 5
- Passing screw (torque) code PSXQA
- Adjustable
- Passing screw (torque) code PSXQA
Code
01AAQX
Code
01AACX
Packaging
1 piece
Packaging
1 piece
Impression transfer
- Titanium gr 5
- Passing screw (torque) code PSXQT
Code
01TRXP1730
Packaging
1 piece
Laboratory analog
- Titanium gr 5
Code
01ANX1730
Packaging
1 piece
12
8
9
LEADERQUICK is the clinical solution developed for Implus and TiXos implants with external hex, ideal in cases of upper or lower edentulous jaws.
Effected using 4, 6 or more implants, inserting straight and pre-angled abutments properly designed for these kinds of edentulous patients, LEADERQUICK provides a stable prosthetic support, thanks to the posterior angulated implants, which guarantee a long term success.
Designed for the application of temporary immediate prosthetic dentures, LEADERQUICK procedure spares the patient the inconvenience of temporary edentulous situation, allowing a fixed denture in very short time.
Taking the maximum advantage of the patient’s existing bone, in many cases it is possible to avoid bone graft surgery and more invasive procedures.
In the upper jaw, even in situation of very reduced bone height proximal to maxillary sinuses, thanks to LEADERQUICK procedure, a very stable prosthesis can be obtained just displacing the posterior implants.
In the lower jaw, the reduced vertical height caused by a long lasting edentulous arch, very often prevents the insertion of implants with proper length and limits the intervention to the area between the two mental foramen. With LEADERQUICK procedure, a stable prosthesis is possible, taking advantage of the patient’s existing bone.
LEADERqUICK
54 55
Prosthetic components TIXOS EXTERNAL HEX Prosthetic components TIXOS EXTERNAL HEX
Cylindrical Ø 5,0 Platform Ø 5,0
Protection cap Temporary abutment Castable abutment
*Each frictioning abutment is equipped with PSXF tapered passing screw. WARNING: insert the abutment taking care that the hex connection is perfectly accommodated in its site. Then fix it screwing the tapered screw in. Use driver TLM16S and connections TW16L (manual) / TLCA16L (contra-angle).
Height (h)
2 mm
4 mm
6 mm
Transmucous Ø
5,0 mm
5,0 mm
5,0 mm
Healing screw
- Titanium gr 5- Different heights
Code
01HCX502
01HCX504
01HCX506
Packaging
1 piece
1 piece
1 piece
Transmucous Ø
5,0 mm
Impression transfer with long screw
- Titanium gr 5- Long passing screw h 14 mm, code PSXTL- To be used with individual open tray (pick-up technique)
Code
01TRX50
Packaging
1 piece
Platform Ø
5,0 mm
Laboratory analog
- Titanium gr 5
Code
01ANX5
Packaging
1 piece
Transmucous Ø
5,0 mm
5,0 mm
Standard straight abutment with screw
- Titanium gr 5
- Different diameters
- Adjustable
- Short passing screw (code PSXTS)
Code
01ATIX5
01ATIXF5*
Packaging
1 piece
1 piecefor frictioning connection
NOTE:It is possible to apply the so called “Platform switching”, i.e. to apply a narrower abutment on a larger platform, so that the possible inflammation is spread on an hori-zontal area rather than on a vertical wall. With this technique the crestal bone resorption can be avoided thus enhancing also the volume and quality of the soft tissues (better stability, better aesthetic).
Implants with platform Ø 5 g Prosthetic component with platform Ø 4,1
TECAPEEK Healing screw Height (h)
4 mm
6 mm- Aesthetic
- Biocompatible
- Inhibition to bacterial attack
- Chemical inertia
- Autoclavable
- Passing screw
Code
01HPKCX504
01HPKCX506
Packaging
1 piece
1 piece
Transmucous Ø
5 mm
5 mm
Passing screw
PSTXXS
PSKX6
h
h
11,0
10,0
1,3
1,3
2,0
1,7
Full edentulous • upper jaw Minimum thickness 5 mm Minimum height 10 mm between canines
Full edentulous • lower jaw Minimum thickness 5 mm Minimum height 8 mm between the mental foramen
LEADERQUICK procedure is ideal in cases of full edentulous arches, considering the minimum bone features necessary:
Posterior implants maximum tilt angle should be 45°
GENERAL TIPS
For ratchet For contra-angle
Ø 2 mm
01TWQ
Torque
01TLCAQTS01TLCAQTL
Torque
01TWQT
Connections / Torque ratchets for passing screws
Fixing at 35 Ncm *Fixing at 15 Ncm *Fixing at 15 Ncm
For screws 01PSXQA1 01PSXQA2 01PSXQA3
For screws 01PSXQT 01PSXQA* 01PSXQP*
ShortLong
For screws 01PSXQT 01PSXQA* 01PSXQP*
NOTE: All prosthetic components are available also in packaging of 10 pcs; ordering code ......../10
LEADERqUICKCylindrical Ø 3,3 e 3,75 Platform Ø 4,1
SMART TRANSFERSee page 32
56 57
Prosthetic components TIXOS EXTERNAL HEX Prosthetic components TIXOS
Cylindrical Ø 5,0 Platform Ø 5,0
*Each frictioning abutment is equipped with PSXF tapered passing screw. WARNING: insert the abutment taking care that the hex connection is perfectly accommoda-ted in its site. Then fix it screwing the tapered screw in. Use driver TLM16S and connections TW16L (manual) / TLCA16L (contra-angle).
Fractured screw retrieval kit
(1)
(2)
(3)
To retrieve fractured abutment passing screws
1) Tool to be inserted inside the implant
2) Fork to be inserted inside the device (1)
3) Drill to be used inside the device (1) to reduce the fractured screw (code 01K55F)
Code
01K55
Packaging
1 piece
Reamer
- Casting finishing
- Cylindrical or frictioning 5° tapered
Code
01DTZ2
01DTZ1
Packaging
1 piece
1 piece
Ø
2,5 mm
2,5 - 1,8 mmfor frictioning connection
Cylindrical
Tapered
Extraction screw
For castable and gold coping and abutments
Code
01PSES
Packaging
1 piece
A complete range of accessories for overdenture is available. See page 67
Anti-rotation castable abutment with screw
- Adjustable
- Short passing screw code PSCLXS
Code
01CLX50
01CLXF50*
Packaging
1 piece
1 piecefor frictioning connection
Screw code
PSX1
Anti-rotation abutment with screw
- Titanium gr 5
- Anti-rotation abutment for screw retained prosthesis
- To be used with castable abutments code ACLX50A – ACLRX50A
- Extractor code PSES
- Passing screw with threaded head
Code
01AATIX501A
Packaging
1 piece
Height (h)
Neck 1 mm
Rotating/Anti-rotation castable abutment with screw
1) Castable adjustable
2) Titanium short fixing screw code PSAS
- Usable with anti-rotation abutment for screw- retained denture
- Rotating: ideal for bar retained prosthesis (overdenture)
- Anti-rotation: ideal for single crowns
Code
01ACLRX50A
01ACLX50A
Packaging
1 piece
1 piece
rotating
rotating
anti-rotation
anti-rotation
NOTE:It is possible to apply the so called “Platform switching”, i.e. to apply a narrower abutment on a larger platform, so that the possible inflammation is spread on an hori-zontal area rather than on a vertical wall. With this technique the crestal bone resorption can be avoided thus enhancing also the volume and quality of the soft tissues (better stability, better aesthetic).
Implants with platform Ø 5 g Prosthetic component with platform Ø 4,1
rotating anti-rotation
13,0
12,7
8,0
h
1,5
1,9
1,7
Transmucous Ø
5,0 mm
5,0 mm
5,0 mm
5,0 mm
Gold base
Cr-co base
Castable abutment gold or chrome-cobalt coping with screw
- Gold coping
- Castable
- Extractor code PSES
- Passing screw code PSTXXS
- Availabe with gold or chrome-cobalt alloy base
Code
01AGCLRX5
01AGCLX5
01AGCLXF5* (1)
01ACRCLX5
Packaging
1 piece
1 piece
1 piece
1 piece
(1) tight the tapered passing screw at 40 Ncm
PRE-HEATING:720° for metal acrylic; 830° for metal ceramic30 min. from the final temperature suggested overcastting with noble alloy (60% gold)
58 59
for fi x prosthesis
NANO
• Fixture in titanium, Grade 5
• Transmucosal one-piece fi xture
• Microfused, porous, isoelastic surface
• Interconnected cavities: 2-200 microns
• Active porous surface thickness: about 250 microns
Suitable for the immediate prosthetics: this means • that at the end of the surgical procedure performed in a single phase, the patient can leave the dental office with a temporary fixed prosthesis.Ideal for agenesis cases.
The tapered upper end is ideal both for • single and multiple elements.
NANO 3 are recommended for the platform switching • technique (the platform is larger than the prosthetic transmucosal portion, ideal concept in respect of the biological thickness).
NANO 2 have a shorter neck.•
Nano 2 Nano 3
2,0 mm
Porous surface
impl
ant
leng
th
3,8 mm
1,5 mm
1,85 mm
0,5 mm
neck
Thre
ad p
itch
: 1
,25
mm
Porous surface5.65 mm
0.30 mm
impl
ant
leng
th
Thre
ad p
itch
: 1
,25
mm
Packaging- Packaging in compliance with ISO 11607-1 and 2.- Sterilization by gamma rays 25 kGy- Sterility guaranteed for 5 years by water proof double packaging in airtight sealed glass vial and blister
3,5
Pla
tfo
rm
Ø Length Code Code
Neck Ø 3,2 2,7 10,0 09INT22710 09INT32710 11,5 09INT22711 09INT32711 13,0 09INT22713 09INT32713 16,0 09INT22716 09INT32716
Neck Ø 3,7 3,2 10,0 09INT23210 09INT33210 11,5 09INT23211 09INT33211 13,0 09INT23213 09INT33213 16,0 09INT23216 09INT33216
Nano 2 Nano 3
60 61
for removable prosthesis
NANO
Tixos Nano OVD implants allow to transform a mobile • prosthesis in a fi xed removable one.
They are suitable for the immediate loading: this • means that, at the end of the surgical procedure performed in a single phase, the patient can leave the dental office with a temporary fixed prosthesis.
Tixos NANO OVD implants are indicated only for the • insertion in the lower jaw, between the two mental foramen.The mini implants, in particular the shorter lengths, are indicated for multiple insertion; we recommend the insertion of 4 fixtures to obtain an ideal implanto-prosthetic rehabilitation.
NANO OVD have a shorter neck.•
• Fixture in titanium, Grade 5
• Transmucosal one-piece fi xture
• Microfused, porous, isoelastic surface
• Interconnected cavities: 2-200 microns
• Active porous surface thickness: about 250 microns
Packaging- Packaging in compliance with ISO 11607-1 and 2.- Sterilization by gamma rays 25 kGy- Sterility guaranteed for 5 years by water proof double packaging in airtight sealed glass vial and blister
Ø 2,5 mm
impl
ant
leng
th
1,5 mm
2 mm
0,5 mm
1,85 mm
Normo ball
Neck
Porous surface
Thre
ad p
itch
: 1
,25
mm
Porous surface
Thre
ad p
itch
: 1
,25
mm
4,7 mm
0,30 mm
impl
ant
leng
th
Ø 2,5 mmNormo ball
Nano OVD Nano OVD 2
3,5
Pla
tfo
rm
Ø Length Code Code
Neck Ø 3,2 2,7 10,0 09INTO2710 09INTO22710 11,5 09INTO2711 09INTO22711 13,0 09INTO2713 09INTO22713 16,0 09INTO2716 09INTO22716
Neck Ø 3,7 3,2 10,0 09INTO3210 09INTO23210 11,5 09INTO3211 09INTO23211 13,0 09INTO3213 09INTO23213 16,0 09INTO3216 09INTO23216
Nano OVD Nano OVD 2
62 63
Platform: Ø 3,5 mm Platform: Ø 3,5 mmApex: Ø 1,45 mm Apex: Ø 1,45 mmØ 2,7 Ø 2,7
Platform: Ø 3,5 mm Platform: Ø 3,5 mm Thread pitch 1,25 mm Thread pitch 1,25 mmApex: Ø 1,85 mm Apex: Ø 1,85 mmØ 3,2 Ø 3,2
Tixos NANO FOR REMOVABLE PROSTHESIS SURGIcAL PROTOcOLTixos NANO FOR FIX PROSTHESIS SURGIcAL PROTOcOL
Thread pitch 1,25 mm Thread pitch 1,25 mm
10,011,513,016,0
09INT3271009INT3271109INT3271309INT32716
Length Code
Nano 3
10,011,513,016,0
09INT2271009INT2271109INT2271309INT22716
Length Code
Nano 2
Nano 3
10,011,513,016,0
09INT3321009INT3321109INT3321309INT33216
Length Code
Nano 2
10,011,513,016,0
09INT2321009INT2321109INT2321309INT23216
Length Code
10,011,513,016,0
09INTO2271009INTO2271109INTO2271309INTO22716
Length Code
Nano OVD 2
10,011,513,016,0
09INTO271009INTO271109INTO271309INTO2716
Length Code
Nano OVD
10,011,513,016,0
09INTO2321009INTO2321109INTO2321309INTO23216
Length Code
Nano OVD 2
10,011,513,016,0
09INTO321009INTO321109INTO321309INTO3216
Length Code
Nano OVD
Recommended drill sequence Recommended drill sequence
Recommended drill sequence Recommended drill sequence
Extended sequence in dense bone Extended sequence in dense bone
Extended sequence in dense bone Extended sequence in dense bone
Paralleling PinØ 2/3,2 PN2/4
Paralleling PinØ 2/3,2 PN2/4
Paralleling PinØ 2/3,2 PN2/4
Paralleling PinØ 2/3,2 PN2/4
Twist Drill UNICAØ 2,3
DSS23S/LMax. 500 rpm
Twist Drill UNICAØ 2,3
DSS23S/LMax. 500 rpm
Twist Drill UNICAØ 2,3
DSS23S/LMax. 500 rpm
Twist Drill UNICAØ 2,3
DSS23S/LMax. 500 rpm
Twist Drill UNICAØ 2,6
DSS26S/LMax. 500 rpm
Twist Drill UNICAØ 2,6
DSS26S/LMax. 500 rpm
CountersinkØ 3,5 CSN
Max. 250 rpm
CountersinkØ 3,5 CSN
Max. 250 rpm
CountersinkØ 3,5 CSN
Max. 250 rpm
CountersinkØ 3,5 CSN
Max. 250 rpm
Cortical DrillØ 1,8 DSP18
Max. 800 rpm
Cortical DrillØ 1,8 DSP18
Max. 800 rpm
Cortical DrillØ 1,8 DSP18
Max. 800 rpm
Cortical DrillØ 1,8 DSP18
Max. 800 rpm
Pilot DrillØ 2,0
DSS20S/LMax. 800 rpm
Pilot DrillØ 2,0
DSS20S/LMax. 800 rpm
Pilot DrillØ 2,0
DSS20S/LMax. 800 rpm
Pilot DrillØ 2,0
DSS20S/LMax. 800 rpm
NOTES NOTES As the implant insertion in the surgical site is very easy, the manual screwing is recommended. Max. 35 NcmWARNING: We recommend to place the implant platform at bone crest level.
Note: As the implant insertion in the surgical site is very easy, the manual screwing is recommended. Max. 35 NcmAn annual check of the implant stability is recommended.
64 65
Surgical instruments for TIXOS NANO implants Surgical instruments for TIXOS NANO implants
Calibrated stops
In gr 5 titanium. They are applied on the drill to reach the desired working length.They are very useful when working near sensible areas such as lower alveolar site and upper sinus.Note: the stops height is referred to the lowest surface of the bone crest.
Cortical drill
Ø 1,8 mm
05DSP18
Surgical steel
For drills with Ø 1,8 - 2,0 - 2,3
05STP18201005STP18201105STP182013
2,6 - 2,8 - 3,0 - 3,2
05STP26321005STP26321105STP263213
Height
10 mm
11,5 mm
13 mm
Calibrated stop kit (4 pcs: h 8-10-11,5-13 mm)
For drills with Ø 1,8 - 2,0 - 2,3
05STPK1
2,6 - 2,8 - 3,0 - 3,2
05STPK2
Accessories
Tweezers
01SATT
Alveolar probe
01SAP1
The round tip allows the automatic check of the site and respects the maxillary sinus
Ratchet
01TW
Manual digma
01TLM
01TEXT
Countersink Extension tool
Contra-angleES 2,5 mm
01TLCAN25
Connections
Ratchet ES 2,5 mm
01TWN25
For all drillsØ 3,5 mm
01CSN
Gr. 5 titanium. Hex section.
Surgical steel, DLC coated.Gr. 5 titanium.
Surgical steel, TiN coated. Working length: 16.5 mm. Max. use: 10 site preparations.Use of Twist drills with stopsThey are used with the stops applied at the desired length, matching the implant one. They are also laser marked, so that they can be used also without stops.
“Unica” Twist drill, in surgical steel with stops Short 34,5 mm Long 40,5 mm
Ø 2,3 mm
05DSS23S05DSS23L
Length
34,5 mm
40,5 mm
Ø 2,0 mm (pilot)
05DSS20S05DSS20L
Ø 1,8 mm
05DSS18S05DSS18L
Ø 2,6 mm
05DSS26S05DSS26L
The “Unica” drill can be used for the whole range of Leader Italia
implants.
NOTE We recommend to replace the o-rings frequently, since they are susceptible to wear due to frequent sterilization cycles.
66 67
Prosthetics components for TIXOS NANO implants Prosthetic accessories for overdenture for TIXOS NANO and cYLINDRIcAL
NANO 2 - NANO 3
NANO OVD - NANO OVD 2
Packaging
1 piece
1 piece
Packaging
1 piece
1 piece
Code
01ANN2
01ANN3
Code
01ANNO
01ANNO2
Gr. 4 titanium
Gr. 4 titanium
Laboratory analog
Laboratory analog
for NANO 2
for NANO 3
for NANO OVD
for NANO OVD 2
Castable abutment for cementing
- Castable abutment for cementing- Also used like impression transfer for traditional prosthetics procedures.
Packaging
1 piece
Code
01ACLCN3 for NANO 2 and NANO 3
Manufactured by Rhein83 srl* NORMO caps: Ø 2,5 mm - MICRO caps: Ø 1,8 mm
Elastic retentive caps
Teflon caps. The different colours correspond to different retention degre-es. Packages of 6 pcs.
NORMO ball*
50049PCN
50060CRNAY
50040CRNSN
50040CRN
50043CLN
Colour
green
yellow
pink
white
black
Features
very elastic
extra soft
soft
standard
lab process
MICRO ball*
50049PCM
50060CRMAY
50040CRMSN
50040CRM
50043CLM
Extra resilient caps
Gummy. Packages of 6 pcs.
NORMO ball*
50048CON
50048CAN
Colour
gold
silver
Features
elastic
gummy
MICRO ball*
50048COM
50048CAM
Titan Cap
Nylon caps with titanium internal ring. Long lasting.
Packages of 2 pcs
NORMO ball*
50040TCN
MICRO ball*
50040TCM
Stainless steel housings
To host the retentive caps. Specific design, with flap top for resin.
Packages of 2 pcs.
NORMO ball*
50041CAN
MICRO ball*
50041CAM
Height 3,10 mm
Height 2,8 mm
Disposable directional rings OT Box Classic
Including:
- 2 upper bars
- 2 lower bars
- 4 plastic positioners
- 4 connectors
NORMO ball*
50153BCN
MICRO ball*
50153BCM
Packaging
12 pieces50100AD
Packaging
3 pieces
OT Cap Tecno Titan box
Including:
- 1 OT Cap Tecno bar
- 2 TiN covered concave spheres
- 2 Titan Caps
- 1 transparent inserting tool
NORMO ball*
50090TCN
MICRO ball*
50090TCM
Packaging
6 pieces
OT Bar Multiuse
Including:
- 2 castable bars
- 8 positioning clips
- 4 castable boxes
- 4 pink retentive clips
- 4 yellow retentive clips
- 2 connectors
50021OBM
Packaging
24 pieces
To align and fix the retentive caps in the overdenture.
0°, 7° and 14° tilting.
Assorted package (1 of a kind)
68 69
S-TYPE
2.5
Height1,8 /2,8 mm
Impl
ant l
engt
h
NeckHeight 1,8
NeckHeight 2,8
4,75
Pla
tfo
rm
Ø Length Code Code
3,75 10,0 09ITST371018 09ITST371028 11,5 09ITST371118 09ITST371128 13,0 09ITST371318 09ITST3713284,5 10,0 09ITST451018 09ITST451028 11,5 09ITST451118 09ITST451128 13,0 09ITST451318 09ITST451328
Fixture in titanium, Grade 5•
Microfused, porous, isoelastic • surface
Interconnected cavities: • 2-200 microns
Active porous surface thickness: • about 250 microns
It allows disparallelism up to 20°•
Surgical screw included•
• Mono phase fi xture to be placed with a very simple, minimal invasive surgery. • Ideal implant-prosthetic rehabilitation for single or multiple elements: in fact, it is possible to choose between titanium abutment and rotating castable abutment or with an anti-rotation mechanism, for such kind of prosthesis:- bar retained overdenture- screwed bridge- cemented bridge- Toronto bridge (screwed overdenture)
Packaging- Packaging in compliance with ISO 11607-1 and 2.- Sterilization by gamma rays 25 kGy- Sterility guaranteed for 5 years by water proof double packaging in airtight sealed glass vial and blister
10,011,513,0
10,011,513,0
Length
Length
Neck h 1,8 mm
Neck h 1,8 mm
10,011,513,0
10,011,513,0
Length
Length
Platform: Ø 4,75 mm
Platform: Ø 4,75 mm
Thread pitch: 1,25 mm
Thread pitch: 1,25 mm
Apex: 2,3 mm
Apex: 2,85 mm
Ø 3,75
Ø 4,5
Body: Ø 3,0 mm
Body: Ø 3,5 mm
Neck h 2,8 mm
Neck h 2,8 mm
Tixos S-TYPE
09ITST37101809ITST37111809ITST371318
09ITST45101809ITST45111809ITST451318
09ITST37102809ITST37112809ITST371328
09ITST45102809ITST45112809ITST451328
First preparation
First preparation
Recommended drill sequence
Recommended drill sequence
Paralleling Pin
PN2/4
Paralleling Pin
PN2/4
Twist DrillØ 2,6
DSS26S/LMax. 500 rpm
Twist DrillØ 2,6
DSS26S/LMax. 500 rpm
Twist DrillØ 2,8
DSS28S/LMax. 500 rpm
Twist DrillØ 3,2
DSS32S/LMax. 500 rpm
Twist DrillØ 3,0
DSS30S/LMax. 500 rpm
Twist DrillØ 3,5
DSS35S/LMax. 500 rpm
Round DrillØ 1,9
DS19SMax. 1.000 rpm
Round DrillØ 1,9
DS19SMax. 1.000 rpm
Cortical DrillØ 1,8 DSP18
Max. 800 rpm
Cortical DrillØ 1,8 DSP18
Max. 800 rpm
Pilot DrillØ 2,0
DSS20S/LMax. 800 rpm
Pilot DrillØ 2,0
DSS20S/LMax. 800 rpm
NOTE STEP DRILLS are available to facilitate the transition to the next drill - see on page 21
70 71
Surgical instruments for TIXOS S-TYPE implants Surgical instruments for TIXOS S-TYPE implants
Ø 5,0 mm
05MTCA50
Preparation drills
Ø 3,5 mm
05DSS35S05DSS35L
Length
34,5 mm
40,5 mm
34,5 mm
40,5 mm
Ø 2,0 mm (pilot)
05DSS20S05DSS20L
Ø 1,8 mm
05DSS18S05DSS18L
Ø 3,0 mm
05DSS30S05DSS30L
Ø 3,2 mm
05DSS32S05DSS32L
Ø 2,8 mm
05DSS28S05DSS28L
Ø 2,6 mm
05DSS26S05DSS26L
“Unica” Twist drill, in surgical steel with stops Short 34,5 mm Long 40,5 mm
Surgical steel, TiN coated. Working length: 16.5 mm. Max. use: 10 site preparations.Use of Twist drills with stopsThey are used with the stops applied at the desired length, matching the implant one. They are also laser marked, so that they can be used also without stops.
Calibrated stops
For drills with Ø 1,8 - 2,0 - 2,3
05STP18201005STP18201105STP182013
2,6 - 2,8 - 3,0 - 3,2
05STP26321005STP26321105STP263213
3,5 - 3,8 - 4,2
05STP38421005STP38421105STP384213
Height
10 mm
11,5 mm
13 mm
In gr. 5 titanium. They are applied on the drill to reach the desired working length.They are very useful when working near sensible areas such as lower alveolar site and upper sinus.
Calibrated stop kit
4 pcs packaging: h 8-10-11,5-13 mm
For drills with Ø 1,8 - 2,0 - 2,3
05STPK1
2,6 - 2,8 - 3,0 - 3,2
05STPK2
3,5 - 3,8 - 4,2
05STPK3
Ø 1,8 mm
05DSP18
Ø 2,3 mm
05DSP
Ø 1,9 mm
11DS19S
Tissue punch In gr 5 titanium. Round drill In surgical steel. Cortical drill In surgical steel.
Accessories
Tweezers
01SATT
Alveolar probe
05SAP
Manual digma
05TLMST2
01TEXT
Extension tool
For all drills
Bone taps
Titanium
Handle for digma
05BTLM
for TLMST2
Connections
ES 2,5 mm
05TEXSTS
ES 2,5 mm
05TEXSTL
Short Long
Surgical steel, DLC coated.
In steel. Hex section. Gr 5 titanium.
Ø 3,7 mm
01CTCAT37
Ø 4,5 mm
01CTCAT45
The “Unica” drill can be used for the whole range of Leader Italia
implants.
The round tip allows the automatic check of the site and respects the maxillary sinus
Ratchet
01TW
NOTE We recommend to replace the o-rings frequently, since they are susceptible to wear due to frequent sterilization cycles.
72 73
Prosthetics components for TIXOS S-TYPE implants
Transfer
- Titanium gr 5- Passing screw code PSTR
Packaging
1 piece
Code
05TR475
Packaging
1 piece
Code
05ANSTStainless steel
Laboratory analog
Rotating/Anti-rotation titanium abutment with screw
- Gr. 5 titanium
- Adjustable
- Passing screw code PS
- Anti-rotation for single elements
- Rotating for multiple elements: allows disparallelism up to 20°
Packaging
1 piece
1 piece
Code
05ATIR
05ATIrotating
anti-rotationrotating anti-rotation
Rotating/Anti-rotation castable abutment with screw
- Adjustable
- Passing screw code PS
- Anti-rotation for single elements
- Rotating for multiple elements: allows disparallelism up to 20°
Packaging
1 piece
1 piece
Code
05CLR
05CLrotating
anti-rotationrotating anti-rotation
Long tapered closing screw for abutment
- Gr. 5 titanium
- To be used instead of the passing screw PS in order to use the abutment as a temporary one
Packaging
1 piece
Code
05HCIST
Healing cap
- Gr. 5 titanium
- To be insterted together with the implant to enable the healing of perio-implant soft tissues
Packaging
1 piece
Code
05HC3IST
Extraordinary application possibilities of the “lasermade” surface
The Laser Technique offers many non-conventional options in custom made root realization and opens a wide range of possibilities: a new era for implant dentistry is starting!
*The custom made root "AdHoc" is manufactured according to the Silvetti-Combe® manufacturing process.
Bibliografic references at pag. 74
surface in custom-made applications
The extracted fractured tooth and the RAI (root-analogue implant) before insertion in the fresh alveolar socket.
Custom-made root
Custom-made blade implants
Custom-made, root-analogue direct laser metal forming implant: a case report
Mangano F, Cirotti B, Sammons RL, Mangano C
Lasers in Medical Science 2012 [Epub ahead of print]
Custom-made, selective laser sintering (SLS) blade implants as a non-conventional solution for the prosthetic rehabilitation of extremely atrophied posterior mandible.
Mangano F, Bazzoli M, Tettamanti L, Farronato D, Maineri M, Macchi A, Mangano C.
Lasers in Medical Science 2012 [Epub ahead of print]
a The custom-made RAI immediately after insertion in the fresh alveolar socket. b Post-operative x-ray. Note the perfect correspondence between the RAI and the post-extraction socket.
The CAD file of the custom-made SLS (selective laser sintering) blade implant.
a The custom-made SLS blade implant placed in position. The implant fits perfectly into the osteotomy site. b The radiographic control 2 years after implant placement.
a
b
74 75
References1. Mangano F, Bazzoli M, Tettamanti L, Farronato D, Maineri M, Macchi A, Mangano C. Custom‐made, selective laser sintering (SLS) blade implants as a non‐conventional solution for the prosthetic rehabilitation of extremely atrophied posterior mandible.Lasers in Medical Science 2013, 28:1241-1247. Epub 2012 Sep 14
2. Mangano F, Pozzi‐Taubert S, Zecca P, Luongo G, Sammons R L, Mangano C. Immediate Restoration of Fixed Partial Prostheses Supported by One‐Piece Narrow‐Diameter Selective Laser Sintering Implants: A 2‐Year Prospective Study in the Posterior Jaws of 16 Patients.Implant Dentistry 2013, 22(4):388-393.
3. Shibli JA, Mangano C, Mangano F, Rodrigues JA, Cassoni A, Bechara K, Ferreia JD, Dottore AM, Iezzi G, Piattelli A. Bone‐to‐implant contact around immediately loaded direct laser metal forming transitional implants in human posterior maxilla.Journal of Periodontology 2013, 84(6):732-737. Epub 2012 Sep 24
4. Rapani M, Perrotti V, Rapani C, Iaculli F, Iezzi G. Implant insertion in a patient with Albers‐Schonberg’s disease: case report and literature review.Journal of Osseointegration 2013, 5(1):13-16.
5. Mangano F, Galletta D, Mastrangelo P, Luongo G, Figliuzzi M, Mangano C. Selective laser sintering (SLS) implants: results from a 2‐year prospective multicenter study.Implantologia Stomatologiczna 2013, 1(7):68-72.
6. Mangano F, Macchi A, Shibli JA, Luongo G, Iezzi G, Piattelli A, Caprioglio A, Mangano C. Maxillary ridge augmentation with custom‐made cad/cam scaffolds. A 1‐year prospective study on 10 patients.Journal of Oral Implantology 2013. [Epub ahead of print]
7. Mangano F, Tettamanti L, Sammons RL, Azzi A, Caprioglio A, Macchi A, Mangano C. Maxillary sinus augmentation with adult mesenchymal stem cells: a review of the current literature.Oral Surg Oral Med Oral Pathol Oral Radiol. 2013, 115:717-723 [Epub ahead of print]
8. Giuliani A, Manescu A, Larsson E, Tromba G, Luongo G, Piattelli A, Mangano F, Iezzi G, Mangano C. In Vivo Regenerative Properties of Coralline‐Derived (Biocoral) Scaffold Grafts in Human Maxillary Defects: Demonstrative and Comparative Study with Beta‐Tricalcium Phosphate and Biphasic Calcium Phosphate by Synchrotron Radiation X‐Ray Microtomography.clinical Implant Dentistry and Related Research 2013. [Epub ahead of print]
9. Mangano F, De Franco M, Caprioglio A, Macchi A, Piattelli A, Mangano C. Immediate, non‐submerged, root‐analogue direct laser metal sintering (DLMS) implants: a 1‐year prospective study on 15 patients. Lasers in Medical Science 2013. [Epub ahead of print]
10. Mangano C, Piattelli A, Mangano F, Rustichelli F, Shibli JA, Iezzi G, Giuliani A. Histological and Synchrotron Radiation‐Based Computed Microtomography Study of 2 Human‐Retrieved Direct Laser Metal Formed Titanium Implants.Implant Dentistry 2013, 22:175-181.
11. Iezzi G, Piattelli A, Mangano C, Shibli JA, Vantaggiato G, Frosecchi M, Di Chiara C, Perrotti V. Peri‐implant bone tissues around retrieved human implants after time periods longer than5 years: a retrospective histologic and histomorphometric evaluation of 8 cases. Odontology 2012. [Epub ahead of print]
12. Mangano F, Mastrangelo P, Luongo G, Luongo F, De Franco M, Figliuzzi M, Mangano C. Selective laser sintering (SLS) implants: results from a 2‐year prospective multicenter study.20th Annual Scientific Meeting of the European Association of Osseointegration 10-13 October 2012, Copenhagen
13. Mangano F, Zecca P, Pozzi‐Taubert S, Macchi A, Ricci M, Luongo G, Mangano C. Maxillary sinus augmentation using computer‐aided design/computer‐aided manufacturing (CAD/CAM) technology.The International Journal of Medical Robotics & computer Assisted Surgery 2012. Epub 2012 Sep 7
14. Ricci M, Mangano F, Tercio T, Tonelli P, Barone A, Raspanti M, Covani U. Nanometrical evaluation of direct laser implant surface.Surface and Interface Analysis 2012. Epub 2012 Jul 24
15. Figliuzzi M, Mangano F, Mangano C. A novel root analogue dental implant using CT scan and CAD/CAM: selective laser melting technology.International Journal of Oral & Maxillofac Surgery 2012; 41(7):858-62. Epub 2012 Feb 28
16. Mangano F, Cirotti B, Sammons RL, Mangano C. Custom-made, root-analogue direct laser metal forming implant: a case report.Laser Medical Science 2012 Jun 15. [Epub ahead of print]
17. Luongo G, Mangano C, Mangano F, Iezzi G, Piattelli A, Shibli JA, Giuliani A, RustichellI F. X-ray synchrotron study of a human retrieved Direct Laser Metal Formed (DLMF) titanium implant. 27° Annual Meeting of the Academy of Osseointegration Phoenix 2012
18. Luongo F, Mangano C, Piattelli A, Scarano A, Raspanti M, Shibli JA, Mangano F, Perrotti V, Iezzi G. A light microscopy and Scanning Electron Microscopy study of peri‐implant collagen fibers around human Direct Laser Metal Forming (DLMF) dental implants. 27° Annual Meeting of the Academy of Osseointegration Phoenix 2012
19. Luongo G, Luongo F, Mangano F, Mangano C. Direct laser metal forming (DLMF) implants: results from a 1‐year prospective multicenter study. 27° Annual Meeting of the Academy of Osseointegration Phoenix 2012
20. Mangano C, Mangano F, Shibli JA, Ricci M, Papaccio G, Perrotti V, d’Avila S, Piattelli A. Immediate Loading of Mandibular Overdentures Supported by Unsplinted Direct Laser Metal‐Forming Implants: Results From a 1‐Year Prospective Study. Journal of Periodontology 2012; 83(1):70‐78
21. Mangano C, Mangano F, Shibli JA, Luongo G, De Franco M, Briguglio F, Figliuzzi M, Eccellente T, Rapani C, Piombino M, Macchi A. Prospective clinical evaluation of 201 direct laser metal forming implants: results from 1-year multicenter study. Laser Medical Science 2012; 27:181-189
22. Figliuzzi M, Mangano F, Mangano C. Immediate custom-made direct laser metal formed (DLMF) titanium implant in single tooth replacement: a case report.XX International SIO Congress Milan 2012
23. Mangano F, Mangano C, Shibli JA, Sammons RL, Papaccio G, Macchi A, Rapani M, Iezzi G, Piattelli A. Impianti Direct Laser Metal Forming (DLMF): dalla ricerca alle applicazioni cliniche. Implant Tribune 2011; 4:10-15
24. Mangano C, Mangano F. Impianto postestrattivo a carico immediato in area estetica. Quintessenza Internazionale Speciale Implantologia 2011; 3bis:103-110 25. Rapani C, Di Alberti L, Rapani M. Impianto lasermade in osso rigenerato dopo rialzo del seno mascellare per via laterale. Follow-up a 2 anni. Quintessenza Internazionale Speciale Implantologia 2011; 3bis:103-110
26. Mangano F, Mangano C, Eccellente T, De Franco M, Briguglio F, Figliuzzi M, Rapani M, Luongo G. Single-tooth titanium implants produced with direct laser metal-forming technology. Results from a 1-year prospective multicenter study. Dental Cadmos 79(8):475-491, 2011
27. Mangano F, Mangano C, Eccellente T, Briguglio F, Figliuzzi M, Rapani C. Direct Laser Metal Forming (DLMF) Implants: A Prospective Clinical Study. 20th Annual Scientific Meeting of the European Association of Osseointegration Athens 2011
bibliography and acknowledgments in third cover
28. Rapani M, Mangano F, Mangano C, Shibli J.A, Perrotti V, Ricci M, Piattelli A, Di Gregorio G. A prospective multicenter study on the immediate loading of mandibular overdentures supported by 4 one-piece unsplinted direct laser metal forming (DLMF) implants. Results from a 1-year follow-up report on 96 implants. Congresso Nazionale Dei Docenti Di Discipline Odontostoma-tologiche Firenze-Siena 2011
29. Mangano C, Piattelli A, Raspanti M, Mangano F, Cassoni A, Iezzi G, Shibli JA. Scanning electron microscopy (SEM) and X‐ray dispersive spectrometry evaluation of direct laser metal sintering surface and human bone interface: a case series. Lasers Medical Science 2011; 26:133–138
30. Trisi P, Carlesi T, Colagiovanni M, Perfetti G. Implant Stability Quotient (ISQ) vs direct in vitro measurement of primary stability (micromotion): effect of bone density and insertion torque.Jou. of Osteology and Biomaterials 2010; 1 (3):141‐151
31. Mangano F, Mangano C, Macchi A, Perrotti V, Iezzi G, Piattelli A. La topografia della superficie implantare nella moderna implantologia. Parte I: superfici lisce e microrugose.Italian Oral Surgery 2010; 9 n. 4:201-214
32. Mangano F, Mangano C, Macchi A, Perrotti V, Iezzi G, Piattelli A. La topografia della superficie implantare nella moderna implantologia. Parte II: superfici nanostrutturate e DLF. Italian Oral Surgery 2010; 9 n. 5: 261-262, 265-275
33. Mangano C, Piattelli A, D’Avila S, Iezzi G, Mangano F, Onuma T, Shibli JA. Early human bone response to laser metal sintering surface topography: a histologic report. Journal of Oral Implantology 2010; Vol. 36 n. 2:91-96
34. Shibli JA, Mangano C, D'Avila S, Piattelli A, Pecora GE, Mangano F, Onuma T, Cardoso LA, Ferrari Sanchez D, Aguiar KC, Iezzi G. Influence of direct laser fabrication implant topography on Type IV bone. Journal of Biomedical Materials Research Part A 2010; Vol. 93:607-614
35. Mangano C, De Rosa A, Desiderio V, d’Aquino R, Piattelli A, De Francesco F, Tirino V, Mangano F, Papaccio G. The osteoblastic differentiation of dental pulp stem cells and bone formation on different titanium surface textures.Biomaterials 2010; n. 31:3543‐3551
36. Mangano C, Shibli JA, Mangano F, Sammons RL, Macchi A. Dental implants from laser fusion of titanium microparticles. Journal of Osseointegration 2009; Vol. 1 n. 1:9-22
37. Mangano C, Raspanti M, Traini T, Sammons RL, Piattelli A. Stereo imaging and cytocompatibility of a model dental implant surface formed by direct laser fabrication. Journal of Biomedical Materials Research Part A 2009; Vol. 88A n. 3:823-831
38. Mangano C, Piattelli A, Mangano F, Perrotti V, Iezzi G. Immediate loading of modified acid etched dental implants in post-extraction sockets. Implant Dentistry 2009; Vol. 18 n. 2:142-150
39. Macchi A, Taubert Pozzi S, Zecca PA. Direct metal laser‐sintering per la produzione di impianti “custom made”.DoctorOS 2009; Anno XX n. 8:1086‐1087
40. Shibli J A, Mangano C, Mangano F, Iezzi G, Cordoso L, Onuma T, Ferrari D, Piattelli A. Early human bone response to laser metal sintering surface topography: a histologic evaluation.Clinical Oral Implant Research 2009; Vol. 20 n. 9 - 1036
41. Macchi A, Mangano C, Mangano F. Direct Titanium laser forming implants.Ceramics, Cells and Tissues 12° Annual seminar & Meeting Faenza 2009; 59
42. De Benedictis S, Berardi D, Malagola C, Trisi P, Perfetti G. Histomorphometric and torque out evaluation of new laser treated implant surfaces: an in vivo study on ovine iliac crest.Clinical Oral Implant Research 2009; Vol. 20 n. 9
43. Mangano C, Perrotti V, Iezzi G, Scarano A, Mangano F, Piattelli A. Bone response to a new modified titanium surface implants. Journal of Oral Implantology 2008; Vol. 34 n. 1:17-24 44. Traini T, Mangano C, Sammons RL, Mangano F, Macchi A, Piattelli A. Direct laser metal sintering as a new approach to fabrication of an isoelastic functionally graded material. Dental Materials 2008; 24:1525-1533
45. Iezzi G, Scarano A, Mangano C, Cirotti B, Piattelli A. Histologic results from a human implant retrieved due to fracture 5 years after insertion. Journal of Periodontology 2008; Vol. 79, n. 1:192-198
46. Mangano F, Sammons RL, Mangano C, Montini S, Piattelli A. Biological investigation of an experimental laser sintered titanium implant surface. Clinical Oral Implant Research 2007; Vol. 18, n. 5:333
47. Raspanti M, Mangano C, Macchi A, Mangano F, Piattelli A, Traini T. Morphological investigation of an experimental laser sintered titanium implant. European Journal of Implant Prosthodontics 2007; Vol. 1, n. 3:28
48. Mangano C, Traini T, Piattelli A, Macchi A, Mangano F, Montini S, Mangano A. Producing dental implants by Direct Laser Forming. Italian Oral Surgery 2006; 4:7-12
49. Mangano C, Macchi A, Mangano A. A new modified titanium implant surface: histological evaluation in non human primates and humans. Dental Horizon 2006; Vol. 4, n. 2:313-317
50. Mangano F, Mangano C, Piattelli A, Iezzi G, Perrotti V. Histologic evaluation of immediately loaded titanium implants.Clinical Oral Implant Research 2006; Vol. 17, n. 4 - 158
51. Iezzi G, Traini T, Mangano C, Piattelli A. Surface microstructure and fibrine extension on titanium laser sintered specimens. Journal of Clinical Periodontology 2006; 73-80 52. Iezzi G, Traini T, Mangano C, Sammons RL, Piattelli A. FESEM and microanalysis investigation of an experimental sintered titanium alloy implant. Academy of Osseointegration 21st Annual meeting, March 2006; 78
Certifications
The care dedicated to the production process, which matches the highest standards in implantology, has earned LEADER ITALIA the certifications ISO 9001 and ISO 13485, as well as the CE0434 mark for medical devices, that guarantee the high quality of its products.
Moreover TIXOS implant line has obtained also the prestigious and severe U.S. FDA Clearance.
*For further information visit our web site www.leaderitalia.it
LEADER ITALIA srl was founded in 1996 to manufacture components for implantology; then, on the basis of the acquired experience on implants, methods and, above all, on the implant peculiar physical problems, LEADER ITALIA has widened its production range, starting the manufacture of its own implant line. In the last few years, the Company has committed itself to scientific and technological research to project and design surfaces suited to enhance and accelerate the osseointegration process, exploring possibilities far from those offered since now by the traditional systems.
Fundamental for this achievement is the cooperation with several international Universities:
III University of Naples: Prof. G. Papaccio
University of Chieti: Prof. A. Piattelli
University of Varese: Prof. A. Macchi, Prof. C. Mangano, Prof. M. Raspanti
Universidade Guarulhos, S. Paolo: Prof. J. Shibli
University of Birmingham: Prof. R. Sammons
University of Johannesburg: Prof. U. Ripamonti.
These years of research have yielded interesting results concerning surface geometry and implant manufacturing and the several published and in press scientific articles demonstrate the revolutionary innovative solutions offered by the new engineering and manufacturing technologies applied.
A special thanks to Prof. Carlo Mangano who has been dedicated himself with passion to this extraordinary challenge in experimental researches on the new laser technology.
For their cooperation with scientific studies and researches, we thank particularly:II University of Naples - Italy (Prof. G. Papaccio), •University of Chieti - Italy (Prof. A. Piattelli), •University of Varese - Italy (Prof. A. Macchi, Prof. C. Mangano, Prof. M. Raspanti), •Universidade Guarulhos in S. Paolo - Brazil (Prof. J. Shibli), •University of Birmingham - UK (Prof. R. Sammons).•University of Johannesburg - South Africa (Prof. U. Ripamonti).•
RL E A D EI T A L I A
Implantology Catalog TiXos line © 2013 Leader Italia srl
Editing:Mariaelena Costantin, Marco Iezzi, Marco Parazzini, Patrizia Sossi, Fabio Spiniella, Elena Talpo
Graphic project:ARPe s.a.s. - Milano
Computerized images:Federico Rizzi
Printing:Arti Grafiche Torri s.r.l. - Cologno Monzese (MI)
28. Rapani M, Mangano F, Mangano C, Shibli J.A, Perrotti V, Ricci M, Piattelli A, Di Gregorio G. A prospective multicenter study on the immediate loading of mandibular overdentures supported by 4 one-piece unsplinted direct laser metal forming (DLMF) implants. Results from a 1-year follow-up report on 96 implants. Congresso Nazionale Dei Docenti Di Discipline Odontostoma-tologiche Firenze-Siena 2011
29. Mangano C, Piattelli A, Raspanti M, Mangano F, Cassoni A, Iezzi G, Shibli JA. Scanning electron microscopy (SEM) and X‐ray dispersive spectrometry evaluation of direct laser metal sintering surface and human bone interface: a case series. Lasers Medical Science 2011; 26:133–138
30. Trisi P, Carlesi T, Colagiovanni M, Perfetti G. Implant Stability Quotient (ISQ) vs direct in vitro measurement of primary stability (micromotion): effect of bone density and insertion torque.Jou. of Osteology and Biomaterials 2010; 1 (3):141‐151
31. Mangano F, Mangano C, Macchi A, Perrotti V, Iezzi G, Piattelli A. La topografia della superficie implantare nella moderna implantologia. Parte I: superfici lisce e microrugose.Italian Oral Surgery 2010; 9 n. 4:201-214
32. Mangano F, Mangano C, Macchi A, Perrotti V, Iezzi G, Piattelli A. La topografia della superficie implantare nella moderna implantologia. Parte II: superfici nanostrutturate e DLF. Italian Oral Surgery 2010; 9 n. 5: 261-262, 265-275
33. Mangano C, Piattelli A, D’Avila S, Iezzi G, Mangano F, Onuma T, Shibli JA. Early human bone response to laser metal sintering surface topography: a histologic report. Journal of Oral Implantology 2010; Vol. 36 n. 2:91-96
34. Shibli JA, Mangano C, D’Avila S, Piattelli A, Pecora GE, Mangano F, Onuma T, Cardoso LA, Ferrari Sanchez D, Aguiar KC, Iezzi G. Influence of direct laser fabrication implant topography on Type IV bone. Journal of Biomedical Materials Research Part A 2010; Vol. 93:607-614
35. Mangano C, De Rosa A, Desiderio V, d’Aquino R, Piattelli A, De Francesco F, Tirino V, Mangano F, Papaccio G. The osteoblastic differentiation of dental pulp stem cells and bone formation on different titanium surface textures.Biomaterials 2010; n. 31:3543‐3551
36. Mangano C, Shibli JA, Mangano F, Sammons RL, Macchi A. Dental implants from laser fusion of titanium microparticles. Journal of Osseointegration 2009; Vol. 1 n. 1:9-22
37. Mangano C, Raspanti M, Traini T, Sammons RL, Piattelli A. Stereo imaging and cytocompatibility of a model dental implant surface formed by direct laser fabrication. Journal of Biomedical Materials Research Part A 2009; Vol. 88A n. 3:823-831
38. Mangano C, Piattelli A, Mangano F, Perrotti V, Iezzi G. Immediate loading of modified acid etched dental implants in post-extraction sockets. Implant Dentistry 2009; Vol. 18 n. 2:142-150
39. Macchi A, Taubert Pozzi S, Zecca PA. Direct metal laser‐sintering per la produzione di impianti “custom made”.DoctorOS 2009; Anno XX n. 8:1086‐1087
40. Shibli J A, Mangano C, Mangano F, Iezzi G, Cordoso L, Onuma T, Ferrari D, Piattelli A. Early human bone response to laser metal sintering surface topography: a histologic evaluation.Clinical Oral Implant Research 2009; Vol. 20 n. 9 - 1036
41. Macchi A, Mangano C, Mangano F. Direct Titanium laser forming implants.Ceramics, Cells and Tissues 12° Annual seminar & Meeting Faenza 2009; 59
42. De Benedictis S, Berardi D, Malagola C, Trisi P, Perfetti G. Histomorphometric and torque out evaluation of new laser treated implant surfaces: an in vivo study on ovine iliac crest.Clinical Oral Implant Research 2009; Vol. 20 n. 9
43. Mangano C, Perrotti V, Iezzi G, Scarano A, Mangano F, Piattelli A. Bone response to a new modified titanium surface implants. Journal of Oral Implantology 2008; Vol. 34 n. 1:17-24 44. Traini T, Mangano C, Sammons RL, Mangano F, Macchi A, Piattelli A. Direct laser metal sintering as a new approach to fabrication of an isoelastic functionally graded material. Dental Materials 2008; 24:1525-1533
45. Iezzi G, Scarano A, Mangano C, Cirotti B, Piattelli A. Histologic results from a human implant retrieved due to fracture 5 years after insertion. Journal of Periodontology 2008; Vol. 79, n. 1:192-198
46. Mangano F, Sammons RL, Mangano C, Montini S, Piattelli A. Biological investigation of an experimental laser sintered titanium implant surface. Clinical Oral Implant Research 2007; Vol. 18, n. 5:333
47. Raspanti M, Mangano C, Macchi A, Mangano F, Piattelli A, Traini T. Morphological investigation of an experimental laser sintered titanium implant. European Journal of Implant Prosthodontics 2007; Vol. 1, n. 3:28
48. Mangano C, Traini T, Piattelli A, Macchi A, Mangano F, Montini S, Mangano A. Producing dental implants by Direct Laser Forming. Italian Oral Surgery 2006; 4:7-12
49. Mangano C, Macchi A, Mangano A. A new modified titanium implant surface: histological evaluation in non human primates and humans. Dental Horizon 2006; Vol. 4, n. 2:313-317
50. Mangano F, Mangano C, Piattelli A, Iezzi G, Perrotti V. Histologic evaluation of immediately loaded titanium implants.Clinical Oral Implant Research 2006; Vol. 17, n. 4 - 158
51. Iezzi G, Traini T, Mangano C, Piattelli A. Surface microstructure and fibrine extension on titanium laser sintered specimens. Journal of Clinical Periodontology 2006; 73-80 52. Iezzi G, Traini T, Mangano C, Sammons RL, Piattelli A. FESEM and microanalysis investigation of an experimental sintered titanium alloy implant. Academy of Osseointegration 21st Annual meeting, March 2006; 78
RL E A D EI T A L I A
LEADER ITALIA s.r.l.Via Aquileja, 43/C - 20092 Cinisello Balsamo (MI) ITALY
ph. +39 02 618651 - fax +39 02 61290676
www.leaderitalia.it - [email protected]
Implantology Catalog
RL E A D EI T A L I A
l i n eZL
-CIM
PT13
EN
2013