new overview of cyberknife radiosurgeryamos3.aapm.org/abstracts/pdf/90-25583-333462-107361.pdf ·...
TRANSCRIPT
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Overview of CyberKnife Radiosurgery
Martina Descovich, Ph.D
University Of California San Francisco
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Learning Objectives
q Review operating principles of CyberKnife
q System components
q Target tracking
q Treatment delivery
q Demonstrate how to create a treatment plan for an intracranial target
q Discuss QA tests
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3
The CyberKnife System
Linear accelerator
Robot
X-Ray sources
Flat panel detectors
Synchrony Camera
Motorized couch
Robotic Collimator Changer
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Linac and Robot
q Linac:
q 6 MV x-rays
q Dose rate up to 1000 MU/min
q No-flattening filter
q Robot:
q 6 axis joint motion
q Non-isocentric beam delivery
q Predefined path sets
q Nominal SAD 80 cm
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Collimator system q Fixed:
q 12 tungsten cone, 5-60 mm diameter q Multiple path traversal q Advantages: Sharper penumbra, no field
size uncertainty q Used for small targets, spherical targets
q Iris q Dodecahedron q Multiple beam apertures per robot
position q Advantages: Efficient delivery, shorter
treatment times q Used for spatially complex targets
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MLC collimator
q MLC design:
q 41 leaf-pairs, 9 cm thickness q 2.5 mm width at 80 cm q 12x10 cm at 80 cm q 100% over-travel and inter-digitation q Leakage <0.3% average, <0.5% max q Position reproducibility ±0.4 mm q Step and shoot mode
q Advantages: Efficient delivery, treatment of large targets
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Imaging System
Diagnostic X-Ray sources
Detectors
Isocenter
q The imaging system provides a stereotactic frame of reference
q 2 diagnostic x-ray sources and 2 flat panel detectors
q It enables to track, detect & correct for patient and target motion.
q The isocenter is the reference point for robot calibration, treatment planning and image guidance.
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Image guidance during treatment
q CyberKnife SRS is frameless
q 6D Skull tracking
q Alignment center
q Real-time, live images are compared against DRRs generated from planning CT at 45 degrees angle
q Robot adjusts position based on this comparison
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Patient setup
q Primary goal of immobilization: reproducibility, patient comfort
q Thermoplastic mask
q Soft padding
Image of mask
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Imaging studies
q Primary CT scan used for dose calculation and DRR generation
q Secondary images used for target and OAR delineation (MRI, PET, contrast CT)
q Primary CT specifications: q Contiguous no gap, no contrast q Square acquisition (max 512x512x512) q Include anterior and superior aspect of mask with 1 cm margin
Image of fusion MR/CT
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Treatment Parameters q Number of fraction
q Treatment anatomy: head
q Template path set
q Tracking method: 6D Skull
q Collimator type
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Align Center q Set up image alignment center
q Maximize information on the DRR
q Align center does not depend on target location
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Contours q Manual
q Auto-segmentation for Brain
q Skin
q Max of 22 contours
q Need a couple open contours to do VOI operation
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Plan setup q CT density table
q Density override
q Dose calculation grid
q Beam blocking
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Sequential Optimization q Principles of sequential optimization
q Collimator selection
q MU limits
q Auto-shells
q Constraints and steps
q Time reduction
q Node reduction
q Beam reduction
q Prescription
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Sequential Optimization q In conventional optimization algorithms, multiple objectives
are grouped in a single cost function. q In sequential optimization, each objective (step) is optimized
in sequence. q The objective and the order of the steps define the clinical
priorities. q Auto-shells are tuning structures used to constrain the
confomality and the extension of the low-dose region. q Beam reduction removes all beams below a MU threshold
and re-optimize the plans with the remaining beams while preserving the plan quality.
q Time reduction reduces the number of beams and nodes to achieve the user-defined time goal.
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Sequential optimization
q Sequential optimization is divided between Maximum Dose Constraints and Dose Volume Constraints (hard constraints) and Dose Objectives (steps)
q Optimizer runs through the steps sequentially
q Objectives:
q Target objectives q OAR objectives q Shells objectives q MU objectives
q Total number of sample points
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Auto-shells q Auto-shells are used to control dose conformity
around the target and dose fall-off away from the target (dose fingers)
Image of auto-shells
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Collimator size selection q Spherical tumors – usually one
collimator, a little larger than half the tumor size.
q Everything else – usually at least two, which are bound by the smallest target features and the largest collimator that fits in the target.
q Fixed – usually two, similar to these bounds.
q Iris – from the largest down to 12.5 or 10 mm.
q We never use 5 or 7.5 mm for the iris and only use them sparingly for fixed.
Image of a complex target with features
Courtesy of Neil Kirby
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Dose calculation algorithms q Ray Tracing:
q Simple dose calculation method – equivalent path length
q Ray Tracing with contour corrections q Improved accuracy for oblique incidence (target near the
surface)
q Monte Carlo q Most accurate dose calculation method – used in the
presence of tissue heterogeneities (lung, spine, brain near the skull or air cavities)
q Ray tracing is adequate for treatment sites in the head with small tissue heterogeneity *
* Wilcox et al, PRO (2011) 1, 251
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Plan Evaluation q Evaluate the dose distribution everywhere in the patient
q DVH analysis
q Dose conformity – nCI
q Dose homogeneity – 1/IDL
q Low dose fingers
q Beam directions
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Multiple targets
q 24 Gy x 3 fx to 64% q Beams: 166 q Tx time: 41 min q Total MU: 39,600 q Brainstem Dmax: 10.5 Gy q R50%: 4.4
q 24 Gy x 3 fx to 73% q Beams: 41 q Tx Time: 22 min q Total MU: 13,200 q Brainstem Dmax: 9.4 Gy q R50%: 3.6
CyberKnife MLC CyberKnife - cones
Courtesy of Chris McGuinness, UCSF
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Dose Delivery QA
Calculate corresponding dose distribution Rescale MU <700 cGy.
Image Registration Dose Evaluation Plan Delivery
Align center of patient’s target with center of phantom’s target.
Deliver plan on phantom Gafchromic EBT2 films Axial & sagittal planes.
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Film Analysis Film Planned dose Dose comparison
Dose profile comparison Statistical analysis
- Planned dose - Film
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Targeting accuracy QA q End to End q AQA q Table comparing the different QA test and frequency
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Summary q Take home message
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Acknowledgments
q UCSF CK team
q Dilini Pinnaduwage
q Neil Kirby
q Chris McGuinness
q Jean Pouliot