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Original Article

Korean Journal of Medical Physics 2005; 16(1): 24-31

Published online March 25, 2005

Copyright © Korean Society of Medical Physics.

Development of Independent Target Approximation by Auto-computation of 3-D Distribution Units for Stereotactic Radiosurgery

정위적 방사선 수술시 3차원적 공간상 단위분포들의 자동계산법에 의한 간접적 병소 근사화 방법의 개발

Kyoung Sik Choi*, Seung Jong Oh*, Jeong Woo Lee*, Jeung Kee Kim, Tae Suk Suh*, Bo Young Choe*, Moon Chan Kim§, Hyun-Tai Chung

최경식*·오승종*·이정우*·김정기·서태석*·최보영*·김문찬§·정현태

*Department of Biomedical Engineering, College of Medicine, The Catholic University of Korea, Department of Radiation Oncology, Dong-A University Hospital, Konkuk University Hospital, §Department of Neurosurgery, Kangnam St. Mary's Hospital, Seoul National University Hospital

*가톨릭대학교 의과대학 의공학교실, 동아대학교병원 방사선종양학과, 건국대학교 의과대학 방사선종양학과, §강남성모병원 신경외과, 서울대학병원 신경외과

Abstract

The stereotactic radiosurgery (SRS) describes a method of delivering a high dose of radiation to a small target volume in the brain, generally in a single fraction, while the dose delivered to the surrounding normal tissue should be minimized. To perform automatic plan of the SRS, a new method of multi-isocenter/shot linear accelerator (linac) and gamma knife (GK) radiosurgery treatment plan was developed, based on a physical lattice structure in target. The optimal radiosurgical plan had been constructed by many beam parameters in a linear accelerator or gamma knife-based radiation therapy. In this work, an isocenter/shot was modeled as a sphere, which is equal to the circular collimator/helmet hole size because the dimension of the 50% isodose level in the dose profile is similar to its size. In a computer-aided system, it accomplished first an automatic arrangement of multi-isocenter/shot considering two parameters such as positions and collimator/helmet sizes for each isocenter/shot. Simultaneously, an irregularly shaped target was approximated by cubic structures through computation of voxel units. The treatment planning method by the technique was evaluated as a dose distribution by dose volume histograms, dose conformity, and dose homogeneity to targets. For irregularly shaped targets, the new method performed optimal multi-isocenter packing, and it only took a few seconds in a computer-aided system. The targets were included in a more than 50% isodose curve. The dose conformity was ordinarily acceptable levels and the dose homogeneity was always less than 2.0, satisfying for various targets referred to Radiation Therapy Oncology Group (RTOG) SRS criteria. In conclusion, this approach by physical lattice structure could be a useful radiosurgical plan without restrictions in the various tumor shapes and the different modality techniques such as linac and GK for SRS.

KeywordsStereotactic radiosurgery, Beam parameters, Target approximation, Dose evaluation

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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