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Original Article

Korean Journal of Medical Physics 2004; 15(1): 30-38

Published online March 25, 2004

Copyright © Korean Society of Medical Physics.

The Clinical Effect and Construction of a Stereotactic Whole Body Immobilization Device

전신 정위 고정장치 제작과 임상효과에 대한 연구

Jin-beom Chung*, Won-Kyun Chung, Tae-Suk Suh*, Kyong-Sick Choi*, Ho-Sang Jin*, and Young-Hoon Ji

정진범*·정원균·서태석*·최경식*·진호상*·지영훈

*Department of Biomedical Engineering, College of Medicine, The Catholic University of Korea Departemtn of Radiation Sciences, Seoul Health College Department of Ratidation Oncology, Korea Cancer Center Hospital

*가톨릭대학교 의과대학 의공학교실, 서울보건대학 방사선과, 원자력병원 방사선종양학과

Abstract

Purpose: To develop a whole body frame for the purpose of reducing patient motion and minimizing setup error for extra-cranial stereotactic radiotherapy, and to evaluate the repositioning setup error of a patient in the frame. Materials and Methods: The developed whole body frame is composed of a base plate, immobilizer, vacuum cushion, ruler and belts. The dimension of the base plate is 130 cm in length, 50 cm in width and 1 cm in thickness. The material used in the base plate of the frame was bakelite and the immobilizer was made of acetal. In addition, Radiopaque angio-catheter wires were engraved on the base plate for a coordinate system to determine the target localization. The measurement for radiation transmission and target localization is performed in order to test the utilization of the frame. Also, a Matlab program analyzed the patients setup error by using the patient's setup images obtained from a CCTV camera and digital record recorder (DVR). Results: A frame that is useful for CT simulation and radiation treatment was fabricated. The frame structure was designed to minimize collisions from the changes in the rotation angle of the gantry and to maximize the transmission rate of the incident radiation at the lateral or posterior oblique direction. The tightening belts may be used for the further reduction of the patient motion, and the belts can be adjusted so that they are not in the way of beam direction. The radiation transmission rates of this frame were measured as 95% and 96% at 10 and 21 MV, respectively. The position of a test target on the skin of a volunteer is accurately determined by CT simulation using the coordinate system in the frame. The estimated setup errors by Matlab program are shown 3.69±1.60, 2.14±0.78 mm at the lateral and central chest, and 7.11±2.10, 6.54±2.22 mm at lateral and central abdomen, respectively. The setup error due to the lateral motion of breast is shown as 6.33±1.55 mm. Conclusion: The development and test of a whole body frame has proven very useful and practical in the radiosurgery for extra-cranial cancers. It may be used in determining target localization, and it can be used as a patient immobilization tool. More experimental data should be obtained in order to improve and confirm the results of the patient setup error.

KeywordsStereotactic whole body immobilization device, Setup error, Patient motion

Korean Society of Medical Physics

Vol.35 No.3
September 2024

pISSN 2508-4445
eISSN 2508-4453
Formerly ISSN 1226-5829

Frequency: Quarterly

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