review of tg-186 recommendationsamos3.aapm.org/abstracts/pdf/77-22543-313436-91943.pdfreview of...
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Review of TG-186 recommendations
Implementation of advanced
brachytherapy dose calculation algorithms beyond TG-43
Rowan M. Thomson
Carleton Laboratory for Radiotherapy Physics
Carleton University
Ottawa Canada
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Learning Objectives
• Why move beyond TG-43 for brachytherapy dose calculations?
• What are issues in adopting advanced dose calculation algorithms?
• What are the TG-186 recommendations for adoption of advanced model-based dose calculation algorithms?
TG-186 report: Beaulieu et al, Med. Phys. 39, 6208 (2012)
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Why move beyond TG-43?
• TG-43 based treatment planning systems (TPS) can fail to accurately calculate dose…
Air, tissues ≠ water Intersource effects Shielding Radiation scatter
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Water
TG-43 approach Reality
versus
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Effect of non-water media significant
Mass energy absorption coefficients of various tissues relative to water versus energy
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How large are deviations from TG-43?
• Shielded applicators (GYN, ocular …): huge! - Eye plaque: up to 90%
• Breast: - HDR: up to 5% for skin dose
- Low energy: 30-40% from tissue heterogeneities
• Prostate: - HDR: <2% (plastic catheters)
- Permanent seed: 4 to 15%
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If not TG-43, then what?
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Model-based dose calculation algorithms (MBDCAs) • Collapsed-cone superposition/convolution method
• Deterministic solutions to the linear Boltzmann transport equation
• Monte Carlo simulations
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If not TG-43, then what?
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Model-based dose calculation algorithms (MBDCAs) • Collapsed-cone superposition/convolution method
• Deterministic solutions to the linear Boltzmann transport equation
• Monte Carlo simulations
TG-186 charge: provide guidance for early adopters of MBDCAs for brachytherapy to ensure practice uniformity
Maintain inter-institution consistency and high QC/QA standards
TG-186 report: Beaulieu et al, Med. Phys. 39, 6208 (2012)
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TG-186 recommendations
Recommendations focused on three main areas:
1. Dose specification medium selection
2. CT imaging and patient modeling
3. MBDCA commissioning
RM Thomson 8
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TG-186 recommendations
Recommendations focused on three main areas:
1. Dose specification medium selection
2. CT imaging and patient modeling
3. MBDCA commissioning
RM Thomson 9
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1. Dose specification medium selection
MBDCA model radiation transport and energy deposition in realistic patient treatment geometries
Images: www.brachytherapy.com, malecare.org, www.eyecancer.com
Adopters of MBDCA must select media for:
– Radiation transport
– Dose specification
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Dose reporting possibilities
x,y: Local medium (m) or water (w)
x: dose specification
medium
y: radiation transport
medium
Dx,y
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Dose reporting possibilities
12
Dm,m
Scoring volume / dose
specification medium
x,y: Local medium (m) or water (w)
x: dose specification
medium
y: radiation transport
medium
Dx,y
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Dose reporting possibilities
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Dm,m Dw,w
x,y: Local medium (m) or water (w)
x: dose specification
medium
y: radiation transport
medium
Dx,y
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Dose reporting possibilities
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Dm,m Dw,w Dw,m
x,y: Local medium (m) or water (w)
x: dose specification
medium
y: radiation transport
medium
Dx,y
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Which dose to calculate?
• Adoption of MBDCA is motivated by clinical need for accurate and rigorous estimation of delivered dose distributions
Model radiation transport with most accurate tissue compositions available:
Dm,m Dw,m
or
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Dose specification medium?
• Debate: ???
Dm,m Dw,m
or
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Dose specification medium?
• Debate: ???
Dm,m Dw,m
or
External Beam:
• Controversy largely academic (except for bone): differences 1-2% for all soft tissues
• AAPM TG-105 on MC dose calculations for EBRT (2007): no position on Dm,m versus Dw,m issue
Chetty et al, Med. Phys. 34 (2007). 17
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Dm,m versus Dw,m: brachytherapy
• Differences between Dm,m, Dw,m and Dw,w(TG-43) significant, especially for low energy brachytherapy
• Cannot generally motivate reporting Dw,m to connect with previous clinical experience
• Adoption of MBDCA: potential for significant impact on dose metrics
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TG-186 recommendation
• As available evidence does not directly support Dw,m, reporting Dm,m is preferred Dm,m is a conceptually well-defined quantity whereas
Dw,m is a theoretical construct (no physical realization in a non-water medium)
Require only reporting Dm,m when using MBDCAs
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Dm,m Dw,m
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TG-186 recommendations
Recommendations focused on three main areas:
1. Dose specification medium selection
2. CT imaging and patient modeling
3. MBDCA commissioning
RM Thomson 20
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2. CT imaging and Patient modeling
• MBDCA require assignment of interaction cross sections on a voxel-by-voxel basis
• EBRT: only need electron densities (e-/cm3)
• Brachytherapy (< 400 keV): importance of photoelectric effect interaction cross sections depend on atomic number Z, in addition to density
Need to know tissue mass density and atomic number distribution within patient geometry
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Tissue segmentation
• Human tissues ≠ water
• Need accurate tissue segmentation: identification of tissue type density and elemental composition
• Inaccurate tissue segmentation inaccurate dosimetry (both for cancerous tissues and organs at risk)
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TG-186 recommendations
CT imaging and Patient modeling:
i. Consensus material definition
ii. Material assignment method
iii. CT artifact removal
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i. Consensus material definition
• Limit # of materials to a few
• Tissue mass density derived from CT scanner image (exception: artifacts)
• Material definitions: ICRU Report 46 (Ref. 109) Woodard and White 1986 (Ref. 110) – Table III (TG-186)
Author 24
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i. Consensus material definition
•Clinical physicist: confirm sufficiently accurate and spatially resolved applicator and source models, including correct media assignments
•Applicators, sources should be modeled analytically or with very fine resolution meshes
•Manufacturers should disclose seed and applicator geometry, material assignments, and manufacturing tolerances to both end users and TPS vendors
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ii. Material assignment method
• For a given organ, use contours to guide tissue assignment
• If CT data available: • Use CT-derived density with uniform tissue composition
• Voxels outside contours: use CT densities with ‘mean soft tissue’ composition
• Other imaging modalities: use bulk tissue densities and compositions based on contoured organs
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iii. CT artifact removal
• Artifacts must be removed prior to dose calculations
• Simplest: manual override of tissue composition and density
• Advanced approaches: if used, must be carefully documented
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Sutherland et al, Med. Phys. 38, 4365 (2012)
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TG-186 recommendations
Recommendations focused on three main areas:
1. Dose specification medium selection
2. CT imaging and patient modeling
3. MBDCA commissioning
RM Thomson 28
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3. MBDCA Commissioning
• Implementation of MBDCA for treatment planning: compromises between computational speed and accuracy
MBDCA TPS must be carefully benchmarked against analogue MC or experiment
• TG-186: two levels of commissioning tests in addition to TPS QC/QA already in place based on societal guidelines
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Commissioning level 1
• Comparison of MBDCA-derived doses in a reference-sized homogeneous water phantom to consensus TG-43 data
Check dose distribution due to physical source model without consideration of surrounding environment
• Level 1 pass criterion: 2.0% tolerance for agreement with consensus TG-43 dosimetry parameters • Deviations > 2.0% should be carefully examined, clinical
impact understood and documented prior to patient use
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Commissioning level 2
• Comparison of MBDCA TPS 3D dose distributions for specific virtual phantoms mimicking clinical scenarios with benchmark dose distributions for the same phantom geometries
• Benchmarked dose distributions obtained using well-documented MC code
- Working group on MBDCA for brachytherapy: development of test cases to be made publicly available
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MBDCA commissioning workflow
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Fig. 4 (TG-186 Report): MBDCA commissioning workflow for heterogeneous dose distributions calculated by a MBDCA-based TPS. See TG-186 report for discussion.
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Conclusions
• TG-43 calculations - Consistent formalism important part of clinical
brachytherapy
- Use in parallel with model-based calculations experience
• TG-186 recommendations: 1. Dose specification medium selection
2. CT imaging and patient modeling
3. MBDCA commissioning
guide field towards greater adoption of accurate MBDCA
• Outstanding research questions…
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Thanks
• Members of TG-186: L. Beaulieu, A. Carlsson-Tedgren, J.F. Carrier, S. Davis, F. Mourtada, M.J. Rivard, R. M. Thomson, F. Verhaegen, T.A. Wareing and J.F. Williamson
• www.physics.carleton.ca/~rthomson
RM Thomson 34