Post on 21-Jul-2020
2/13/12
1
Brachytherapy: What, Where, Why, How, When… Kent A. Gifford, Ph.D.
What is it?
• Brachy- – Greek word for “near” or “short distance” – Notice no mention of internal – Can involve sources placed in or on
patient – Can even be external and not touching
patient
Where?
• Treatment sites – Bladder – Breast – Brain – Bronchi – Cervix – Eye – H & N – Prostate – Skin
2/13/12
2
Why?
• Placing sources close to tumor yields high dose while keeping OAR dose low
- Inverse square fall off
• Integral dose typically lower then EBRT
• Normal tissue sparing
How?
• Interstitial
– Breast
– H & N
– Gyn
How?
Bob Kuske, MD
2/13/12
3
How?
• Intracavitary – Breast
– Cervical
How?
How?
• Intralumen – IVBT
– Endobronchial
2/13/12
4
How?
How?
• Surface
– Eye
– Skin
How?
2/13/12
5
How?
How?
Brachytherapy Treatments
• Low Dose Rate vs. High Dose Rate
• Definitive vs. Boost
– prostate implant
– cervical implant
2/13/12
6
Dose Rate
• The rate at which the radiation delivers a therapeutic dose to the tumor is the dose rate.
• Low Dose Rate (LDR) – The rate is slow - it takes hours, even days to
deliver the prescribed dose. • Pulsed Dose Rate (PDR)
– Delivered so as to mimic LDR, typically one pulse per hour.
• High Dose Rate (HDR) – The dose rate is high - the treatment takes only
minutes to deliver the dose.
Delivery Applicators
• Radioactive sources are usually placed in applicators.
• Applicator function is to maintain source position in diseased area.
• They are specific for each area and should not be used where they were not planned to be placed.
Fletcher-Suit-Delclos Applicator System
2/13/12
7
Orthogonal Films - T&O Applicators
Needles for Temporary Interstitial
MammoSite
2/13/12
8
Inflated balloon Catheter
MammoSite
Vaginal Dome Cylinder
2/13/12
9
Endobronchial catheter
Tracheal or adjustable catheter
Rotterdam Nasopharyngeal Applicator
2/13/12
10
HAM Applicator
Afterloading Technique
• Preloaded • Originally sources were pre-loaded into or made into
the applicator, such as radium needles. – Increased radiation safety issues
• Manual afterloading – Sources are manually loaded once the applicator was in
place. – Dummy sources - non radioactive source replicas, used for
filming and dosimetry • Remote Afterloading
– Sources are loaded into the applicator by a machine once all personnel have left the room. Technology developed in the last three decades of the 20th century.
2/13/12
11
Equipment
• Special equipment is needed to perform brachytherapy procedures – Shielded work area – Leaded storage safe – Leaded transport “pigs” – Area Monitors – GM Survey Meters – Handling instruments - forceps – Special applicators to place radioactive material in the
applicator or tumor volume. – Special calibration equipment
2/13/12
12
2/13/12
13
Remote Afterloading Unit
• Remote Afterloading Units - these machines have become popular in the last 10 -15 years.
• LDR, PDR, HDR Units are available. • Remote control mechanisms use computer
control to introduce the radioactive sources. – Low Dose Rate Afterloading Units are rare in the US.
Manually loaded sources are still the most popular. – High Dose Rate Afterloading Units are required if HDR
treatments are to be preformed due to high activity of source.
LDR Remote Afterloader
HDR Remote Afterloader
2/13/12
14
Remote Afterloading Units
• Advantage: – Minimal radiation exposure to personnel - sources
retract – Reduced inventory of sources – Multiple sites can be treated – Safety features inherent in the treatment unit – Outpatient treatment with HDR
• Disadvantages: – Room availability – Maintenance – Cost
2/13/12
15
Physics/Dosimetry Duties • RAM License
– type of radioactive material, amount, manufacturer, inventory, radiation safety features, training, shielding for storage, etc..
• Preparation – Applicator – Equipment – Simulation – Dosimetry
• Sources – Order/Activate – Receive - wipe test (see your RSO) – Prepare - assay, load, store (inventory)
Procedures • Temporary Implants
– Low Dose Rate/High Dose Rate • Attend procedure
– supply applicators - Tandem and Ovoid, dome/ cylinders, catheters and needles
– equipment - Geiger Mueller Survey Meter, forceps, shields, or shield containers
• Simulation • Dosimetry/Planning • Assist with loading radioactive material • Survey - exposure rate • Assist with removal of radioactive material • Return sources to inventory
Ham Applicator
2/13/12
16
Ham Applicator w/shield
Ham Applicator Connected
Procedures • Permanent Implant
– Low Dose Rate • Attend clinical application of radioactive
sources – equipment - Mick Applicator, Gold Grain Applicator,
needles – Geiger Mueller Survey Meter, NaI detector, leaded
containers (lead pig), shielding • Assist with radioactive material placement
– using fluoroscopy, CT or ultrasound or by naked eye • Survey patient • Radiation Safety Surveys/Paperwork
2/13/12
17
Implant Dosimetry
• “Predictive” in nature? • Based on prior measurements and
understanding of radiation interaction • Designed to demonstrate dose distribution
to the physician according to their prescription
• Assists in evaluation • Determine source arrangement
Treatment Planning
• Hand Calculations – prior to the advent of computers manual
systems of planning were developed – these systems consisted of tables and
rules for implantation • still done today to verify doses (although a
spread sheet is helpful)
Computer Planning
• Fast • Accurate • Flexible • Easily reproduced
– 2D - Single transverse plane presented – 3D - three dimensional plans show the
distribution of radiation around the entire implant.
2/13/12
18
CT Planning
• CT for treatment planning – this modality has only recently become
important in brachytherapy planning. • Prostate implant post-planning • real-time dosimetry planning for prostate
implants • can be used to assist the physician in
determining if if applicator is placed properly and what source configuration or dose to allow (limiting structures)
2/13/12
19
Old 2D AP Plan
Films with all Sources and Ref. Pts. Identified
New 2D Plan
2/13/12
20
Real-Time Imaging
Post-Implant Dosimetry • Seed Identification- 5 mm CT scan example
2/13/12
21
3-D Dose Clouds but no volumetric target/critical structure dosimetry
2/13/12
22
3-D Image Reconstruction
• 3D Image Set formed from the imported CT Slices
Contouring • Organs of
Interest – Body – Bone – Bladder
• Foley Balloon • Bladder
– Rectum – Sigmoid – Uterus
• Applicators – Tandem – Ovoids – Packing
(optional)
Ovoids
Streaking Artifacts
Contoured Applicators
Tandem
Lt. Ovoid Rt. Ovoid
2/13/12
23
3D Sagittal View
Applicators
Rectum Uterus
Foley Balloon
Dose Profile Lines
Final reconstructed T&O w/Isodose
2/13/12
24
DVHs
Duplicating 2-D Planning w/ CT Planning (3D)
Base of Tongue Example
2/13/12
25
Catheters and Active Lengths
Midcut
Final 3D/ LAT View
2/13/12
26
Initial Planning Images
3D View of Implant
Midcut
2/13/12
27
2D Endobronchial Treatment
3D Endobronchial Treatment
2/13/12
28
CT of Mammosite Balloon Catheter
Radiation Safety
• Special radiation precautions are required when patients are implanted with radioactive material.
• All Temporary Implant patients are hospitalized and radiation levels are monitored to assure safe levels for personnel attending the patient.
• The three principle safety rules for dealing with Brachytherapy Patients are:
• Time • Distance • Shielding