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Program Information

Effectiveness of Daily CT-Based Three-Dimensional Image Guided and Adaptive Proton Therapy

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S Moriya

S Moriya1, 2*, H Tachibana2 , K Hotta2 , N Nakamura3 , H Baba2 , R Kohno2 , S Miyakawa4 , T Kurosawa4 , T Akimoto2 , (1) University of Tsukuba, Tsukuba, Ibaraki, (2) National Cancer Center, Kashiwa, Chiba, (3) National Cancer Center Hospital East, Kashiwa, Chiba, (4) Komazawa University, Setagaya, Tokyo

Presentations

SU-F-J-57 (Sunday, July 31, 2016) 3:00 PM - 6:00 PM Room: Exhibit Hall


Purpose: Daily CT-based three-dimensional image-guided and adaptive (CTIGRT-ART) proton therapy system was designed and developed. We also evaluated the effectiveness of the CTIGRT-ART.
Methods: Retrospective analysis was performed in three lung cancer patients: Proton treatment planning was performed using CT image datasets acquired by Toshiba Aquilion ONE. Planning target volume and surrounding organs were contoured by a well-trained radiation oncologist. Dose distribution was optimized using 180-deg. and 270-deg. two fields in passive scattering proton therapy. Well commissioned Simplified Monte Carlo algorithm was used as dose calculation engine. Daily consecutive CT image datasets was acquired by an in-room CT (Toshiba Aquilion LB). In our in-house program, two image registrations for bone and tumor were performed to shift the isocenter using treatment CT image dataset. Subsequently, dose recalculation was performed after the shift of the isocenter. When the dose distribution after the tumor registration exhibits change of dosimetric parameter of CTV D90% compared to the initial plan, an additional process of was performed that the range shifter thickness was optimized. Dose distribution with CTV D90% for the bone registration, the tumor registration only and adaptive plan with the tumor registration was compared to the initial plan.
Results: In the bone registration, tumor dose coverage was decreased by 16% on average (Maximum: 56%). The tumor registration shows better coverage than the bone registration, however the coverage was also decreased by 9% (Maximum: 22%) The adaptive plan shows similar dose coverage of the tumor (Average: 2%, Maximum: 7%).
Conclusion: There is a high possibility that only image registration for bone and tumor may reduce tumor coverage. Thus, our proposed methodology of image guidance and adaptive planning using the range adaptation after tumor registration would be effective for proton therapy.

Funding Support, Disclosures, and Conflict of Interest: This research is partially supported by Japan Agency for Medical Research and Development (AMED).


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