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Chapter 19
Three-Dimensional Conformal Radiation Therapy
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19.1 Introduction
What is 3D-CRT:
• Based on 3D anatomic information
• Dose distribution conforms to the target, and
• Avoids critical organs and normal tissues
• May also include clinical objectives such as TCP and NTCP
Difficulties of 3D-CRT:
• Tumor (CTV) delineation
• Treatment uncertainties (setup uncertainty, organ motion, etc.)
• Lack of clinical data to verify TCP and NTCP models
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19.2 Treatment-Planning Process
3D patient Image (CT, MRI, PET…)
Target, organ delineation (segmentation)
BEV field design (beam angle, aperture)
Plan optimization (# of beams, beam angle,
energy, wedge, weight, intensity distribution)
Dose calculation
Plan evaluation (isodose display, TCP, NTCP)
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19.2 Treatment-Planning Process A. Imaging Data
Digitally Reconstructed Radiograph (DRR)
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19.2 Treatment-Planning Process A. Imaging Data
CT: attenuation coefficients (), can be converted to electron density, used for treatment planning/dose calculation. Spatial resolution ~1mm in X/Y directions, variable (1-10 mm) in Z-direction, which affects the quality of DRR
MRI: proton density, better soft tissue delineation (brain, head/neck, prostate), but insensitive to calcification and bony structures.
Spatial resolution ~1mm in all directions.PET: functional image
CT MRI PET
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19.2 Treatment-Planning Process B. Image Registration
• Point-based registration - minimizes discrepancy between corresponding point pairs
• Surface-based registration – minimizes discrepancy between two surfaces
• Image (intensity)-based registration – minimizes a similarity metric (mutual information, cross correlation, etc.) between two images.
• Deformable registration – usually image-based, point-to-point transformation to minimize a similarity metric between two images.
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19.2 Treatment-Planning Process B. Image RegistrationPoint-based registration
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19.2 Treatment-Planning Process B. Image Registration
Before registration after registration
Surface-based registration
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19.2 Treatment-Planning Process B. Image Registration
Image-based registration
after registration
before registration
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CT PET PET/CT
Lung - CTI/Siemens PET/CT
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19.2 Treatment-Planning Process B. Image Registration
deformable registration – before registration
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19.2 Treatment-Planning Process B. Image Registration
deformable registration – after registration
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19.2 Treatment-Planning Process C. Image Segmentation
Manual segmentation –
Laborious, time-consuming
Auto segmentation –
A very difficult problem
Contours drawn by physician
Contours drawn by auto-deformation from another contouranother contour
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19.2 Treatment-Planning Process D. Beam Aperture Design
Beam’s Eye View (BEV)
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target
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E. Field Multiplicity and Collimation
19.2 Treatment-Planning Process
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F. Plan Optimization and Evaluation
19.2 Treatment-Planning Process
Isodose curves Isodose surface
cord
PTV
eyes
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F. Plan Optimization and Evaluation
19.2 Treatment-Planning Process
0
25
50
75
100
Vol
ume
(%)
0 25 50 75 100Dose (Gy)
femurs
bladder
target
rectum
D=77GyV=90%
D=75GyV=30%
D=72Gy
DVH for a prostate plan
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19.3 Dose Calculation Algorithms
• Correction-based: semi-empirical, based on measured data such as TMR, OCR, etc.
• Model-based: based on phase-space data (energy spectra, angular distribution), Monte-Carlo generated dose kernels, ray-tracing 3D inhomogeneity correction.
• Monte Carlo: simulation of physical events by random sampling; commonly used codes EGS4, MCNP, FLUKA’ GEANT, etc; still too slow for routine clinical use
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19.3 Dose Calculation AlgorithmsA. Correction-based Algorithms
Based on data (PDD/TMR/TPR, OCR) measured in homogeneous phantom (water) at standard distance (e.g. SSD = 100 cm)
For individual plans, corrections needed for:
• Surface contours
• Irregular field shape/size
• Distance (inverse-square corrections)
• Non-uniform intensity (wedge, IMRT)
• Inhomogeneity correction
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19.3 Dose Calculation AlgorithmsB. Model-based Algorithms
Convolution-superposition:
'''
''''
rdrrArT
rdrrArrrD
p
p
Atten coeff Primary energy fluence
TERMA Dose kernel
Inhomogeneity correction made along the ray lines
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Point kernel convolution in homogeneous medium
Primary fluence Point kernel dose
'''' rdrrArrrD p
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241r
2r
transport
interaction
E 1,1
E 2, 2
E’,’
Simulates the physical processes of particle transport and interactions
Photon
• Coherent scattering
• Photoelectric
• Compton
• Pair production
Electron
• Continuous energy loss
• Multiple scattering
• Delta ray production
• Bremsstrahlung production
• Positron annihilation
C. Monte Carlo calculation in CT grids
19.3 Dose Calculation Algorithms
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100 50709095 20
Monte Carlo Conventional
PTV GTV
Lung Treatment with 15 MV photons