igrt robotica g.beltramo centro diagnostico italiano
DESCRIPTION
IGRT Robotica G.Beltramo Centro Diagnostico Italiano. Varese 13 Giugno 2009. Image-Guided Radiation Therapy. “Any use of imaging within the radiation t reatment room, to improve the precision of radiation-therapy delivery”. “Use of any planar imaging, volumetric - PowerPoint PPT PresentationTRANSCRIPT
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IGRT RoboticaG.Beltramo
Centro Diagnostico Italiano
Varese 13 Giugno 2009
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Image-Guided Radiation Therapy“Any use of imaging within the radiation
treatment room, to improve the precisionof radiation-therapy delivery”
“Use of any planar imaging, volumetricimaging, or volumetric ciné imaging, markerlocalization, marker tracking, patient surface
imaging, patient surface tracking to improve the precision of radiation therapy delivery.”
“IGRT is the process of in-room imaging that guides
the radiation delivery.”
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Focus: Image guided RT Intervention
Three essential steps:
Acquire an image
• Acquire the positional information of the target, target surrogates, or avoidance structures
Obtain “target” registration error
• Image registration• Deviations from the original plan
Perform an intervention
• Correction strategies– Inter fraction/intra fraction, online/offline etc.
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Advances in radiation technology
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Stereotactic Radiosurgery System CyberKnife®
In 1991 Jonh Adler, an american neurosurgeon, develop a delivering stereotactic radiosurgery system without the need for
rigid immobilization
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CyberKnife® Robotic Radiosurgery
• Non-coplanar treatment delivery
• Total of more than 1500 different beams
• Delivery of 150 to 200 uniquely angled beams per fraction
Image courtesy of Georgetown University Hospital
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Need X ray vision!
• The target volume is located on X rays (orthogonal or stereoscopic) with fiducial markers or without them (if the target volume can be seen on X rays)• The images are to be fused and registered with the pretreatment DRR’s• The required shifts are calculated using customized software.• Shifts are made
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Dx X-Ray Sources
Amorphous Silicon Detectors
Cyberknife (CK) therapy. CK (Accuray, Inc., Sunnyvale, California) is an image guided, frameless, radiotherapy device with a compact linear accelerator installed on an industrial-derived robotic arm, The intelligent arm has the capability of rotating around 6 axes with millimetric accuracy allowing a stereotactic radiosurgery (SRS) with high radiation doses to relatively small lesions. The treatment unit can verify target position with a real-time tracking during radiation delivery using two kV X-ray sources mounted on the ceiling and two amorphous-silicon image detectors mounted on the floor on either side of the patient in an orthogonal geometry to detect bony landmarks or fiducial markers within or near the target. The targeting system continuously acquires radiographs that are compared with the digitally reconstructed radiographs (DRR) derived from the treatment planning CT scans to update the changes in target position which are compensated by adjusting the aim of the robotic arm [ ].
Stereotactic Radiosurgery System CyberKnife®
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Flowchart of the patient set up and delivery process in Cyberknife treatment
Cyberknife data acquisition
Image guidance
Stereographic X-ray images are compared with DRRs or fiducial positions
Robot corrects after each stereographic X-ray image acquisition
Robot can correct:± 10 mm all components± 1º roll± 1º pitch± 3º yaw
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Planar X Rays (2D+) Advantages
– Fast image acquisition (single or fluoroscopic modes)– High temporal resolution– Tracking– Beam by beam correction– Motion management
Disadvantages
– Use of target surrogates (in most situations)– Obstructions in image viewing angles (anatomies or couch support in the beam path)– Not easy to reconstruct 3D dose distributions
“On-line Correction”Analysis of images and/or related data for potential corrections of the
delivery of the current fraction (i.e. analysis performed while the patient is still on the treatment couch).
Y
X-ray source
B
Pitch
Image A Image B
X-ray source
A
Camera A
Camera B
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Verification of treatment accuracy
Skull may be good surrogate for brain
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• Bone or marker??? spine bone poor surrogate for extracranial cancer
Verification of treatment accuracy
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Verification of treatment accuracy
Accuracy of radiotherapy delivery depends on the visualisation of implanted gold fiducials at the time of treatment and comparison with references images obteined during treatment planning, . The advantage of Cyberknife tracking sistem is to verify in every step of treatment the real position of neoplstic target and the possibility to adjust the aim of robotic arm if the target position change during radiotherapy treatment
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Total error in patient pose is dependent on the number of fiducials being tracked
3 fiducials significant improvement in targeting accuracy
> 6 fiducials adds little more improvement
Error in translations unaffected by spacing
Error in rotation is 50% by doubling the distance between fiducials
0
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0.4
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2 3 4 5 6number of fiducials
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Accuracy of fiducial targetting
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Rigid body constraint
Distances between like fiducials compared
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Histogram of prostate volume as a function of time duration and shift
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Accuracy of fiducial targetting
Percentage of data set of having a movement as a
function of time
Rigid body error curve of three fiducials for four rappresentative
patients
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Inter-fractional motion of the prostate during hypofractionated
radiotherapy
CDI Cyberknife experience
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Real Time Imaging
Imaging with a temporal resolution that’ssufficient to capture the trajectory of a
movingor changing subject. Real time IGRT
correctionrefers to frequent imaging while the
treatment isbeing delivered, with repositioning based on
that imaging.real-time monitoring of any parameter must be fast enough to modify the treatment in
order to account for the impact of that parameter on treatment.
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State of the art in room techniques for respiratory motion
managementTechnologies available
• Optical• MV/EPI• kV X ray• kV/MV/Optical• 4D CBCT/CT• Electromagnetic• Ultrasound• MRI
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Respiratory Guided Radiation Therapy
moving the treatment beam as the target moves
Infrared LED-camera system records the respiration cycle
Real time
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Motion management methods
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CyberKnife® Robotic Radiosurgery
• Accuracy– Total targeting accuracy • Targets not affected by
respiration: 0.5 millimeter**• Targets that move with
respiration: 0.7 millimeter***– Targeting accuracy sustained
throughout the treatment
** Muacevic, A., Staehler, M., Drexler, C., Wowra, B., Reiser, M. and Tonn, J. Technical description, phantom accuracy and clinical feasibility for fiducial-free frameless real-time image-guided spinal radiosurgery. J Neurosurgery Spine. Xsight accuracy specification of .95 mm.
*** Dieterich S, Taylor D, Chuang C, Wong K, Tang J, Kilby W, Main W. The CyberKnife Synchrony Respiratory Tracking System: Evaluation of Systematic Targeting Uncertainty. Synchrony clinical accuracy specification of 1.5 mm for moving targets
* Kuka KR240-2 Specification 04.2004.05
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• Individually fitted vacuum pillow
• Device for diaphragm compression (breathing tumor movements >10 mm at
fluoroscopy)
• Laser system for tattoos
Patient fixation - Stereotactic Elekta® Body Frame
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Methods to avoid geographic miss
- ITV (abd compression), breath hold (ABC),
gating, and tracking
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Cyberknife Radiosurgery : clinical rationale
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Take Home Messages(Target Delineation)
• With robotic IGRT, treatment precision may be improved:
More accurate contours are REQUIRED
• Inaccurate contours could introduce unexpected target miss or increased toxicities
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Day 0: fiducial insertion
Day 7: treatment planning TC. fiducial migration Day 10:
missing
Use For Tracking
Cannot be extracted Migration Obscured
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Inaccurate target delineation
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IMAGE FUSION TC-RM
Clinical use of this tecnique for treatment planning
has resulted in improvements in localization of treatment volumes and critical structures in the
brainKessler M.L.1991 Lattanzi J.P.1997
Use CT for geometric accuracyUse RM for target delineation
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Image guidance facilitates targetting
TC-MRI image Fusion
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MRI for Target Delineation Advantages
• Superior soft tissue image quality• For some tumors - greater sensitivity• Greater accuracy - delineation of some normal tissues• Functional information – normal tissues• Biological information – TME, blood flow, hypoxia• No radiation dose
Disadvantages
• Lack of specificity for tumor vs. other pathological states• Multiple effects that can lead to image distortion• Does not provide relative radiation attenuation• Requires fusion of grayscale images with CT dataset• Motion artifact• Cost
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3D CRT and IMRT aim to achieve better locoregional control and improve survival by radiation dose escalation, but such techniques demand more accurate localization of tumor and surrounding normal tissues
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Imaging in Target Delineation
Use of PET imaging to reduce interobserver
variations in contouring
STEENBAKKERS et al., IJROBP, Vol64, pp435, 2006
PET in Target Definition
Do SUVs mean anything?
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Uncertainties in Manual Volume Alignment
Differences in Image Interpretation
• Inter-observer variation
Contours may not be drawn perfectly One person’s alignment may not agree with another person’s judgment
• Impact of organ deformation
Imperfect alignment
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SBRT theoretical basis
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Operable lung cancer patients
Extent of resection impacts local control
(e.g., wedge vs. lobectomy – LCSG trial)Local control impacts survival
Goal with SBRT in inoperable patients should be very high local control until
proven otherwise
At treatment After 3 months After 12 months
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Large Japanese Study (Onishi, 2007)
SBRT for early stage lung carcinoma
Indiana phase I trial
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SBRT toxicity
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Respect Normal Tissue Constraints
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Respect Normal Tissue Constraints
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Organ at risk dose coinstrain
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12 months post SBRT
3 months post SBRT
6 months post SBRT
Respect Normal Tissue ConstraintsGRADE II
GRADE III
GRADE IV
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Local Therapy and Image-Guidance
• Radiation therapy is a proven local therapy.
• Increased precision in therapy offers:– Reduce severity and risk of therapy-induced complications.– Increase both quality and probability of success.
• Further potential:– Broaden application of proven therapies.– Permit new therapies that are intolerant to geometricimprecision.
• Addressing geometric uncertainties may expose otherfactors determining outcome.
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Not a single IGRT solution can correctall sources of uncertainties
Systematic Random
Inter-fractional Intra-fraction
Shape Variations Time Trends
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The living patient and thedynamic treatment problem
What could possibly go wrong and how could that happen?
Inadequate implementation of IGRT technology for the treatment site
What effects would such a failure produce?
Suboptimal treatment Failure to control cancer Increased toxicities Waste of resources
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Clinical benefit of image guided robotic radiotherapy
Stereotactic body radiotherapy (SBRT) is the Latest Generation of “Targeted “ therapies for
radiation