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Program Information

Motion Management in Current Stereotactic Body Radiation Therapy (SBRT) Practice


C Shang

S Flampouri

O Green




C Shang1*, S Flampouri2*, O Green3*, (1) Boca Raton Regional Hospital, Boca Raton, FL, (2) University of Florida Proton Therapy Institute, Jacksonville, FL, (3) Washington University School of Medicine, St. Louis, MO

Presentations

8:30 AM : Overcoming the Challenges of Motion Management in Current Lung SBRT Practice - C Shang, Presenting Author
8:50 AM : Motion management for proton lung SBR - S Flampouri, Presenting Author
9:10 AM : MRI-guided tracking and gating - O Green, Presenting Author

MO-B-201-0 (Monday, August 1, 2016) 8:30 AM - 9:30 AM Room: 201


The motion management in stereotactic body radiation therapy (SBRT) is a key to success for a SBRT program, and still an on-going challenging task. A major factor is that moving structures behave differently than standing structures when examined by imaging modalities, and thus require special considerations and employments. Understanding the motion effects to these different imaging processes is a prerequisite for a decent motion management program. The commonly used motion control techniques to physically restrict tumor motion, if adopted correctly, effectively increase the conformity and accuracy of hypofractionated treatment. The effective application of such requires one to understand the mechanics of the application and the related physiology especially related to respiration. The image-guided radiation beam control, or tumor tracking, further realized the endeavor for precision-targeting. During tumor tracking, the respiratory motion is often constantly monitored by non-ionizing beam sources using the body surface as its surrogate. This then has to synchronize with the actual internal tumor motion. The latter is often accomplished by stereo X-ray imaging or similar techniques. With these advanced technologies, one may drastically reduce the treated volume and increase the clinicians' confidence for a high fractional ablative radiation dose. However, the challenges in implementing the motion management may not be trivial and is dependent on each clinic case. This session of presentations is intended to provide an overview of the current techniques used in managing the tumor motion in SBRT, specifically for routine lung SBRT, proton based treatments, and newly-developed MR guided RT.

Leaning Objectives:
Through this presentation, the audience will
1.understand basic roles of commonly used imaging modalities for lung cancer studies;
2.familiarize the major advantages and limitations of each discussed motion control methods;
3.familiarize the major advantages and limitations of each discussed radiation beam control methodology and tumor tacking method;
4.understand the key points in motion management for a high quality SBRT program.

Handouts


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