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用于重离子放射治疗的使用正电子发射束的射程验证系统。

Range verification system using positron emitting beams for heavy-ion radiotherapy.

作者信息

Iseki Yasushi, Kanai Tatuaki, Kanazawa Mitsutaka, Kitagawa Atsushi, Mizuno Hideyuki, Tomitani Takehiro, Suda Mitsuru, Urakabe Eriko

机构信息

Department of Energy Sciences, Tokyo Institute of Technology, Nagatsuda-cho, Midori-ku, Yokohama, 226-8502, Japan.

出版信息

Phys Med Biol. 2004 Jul 21;49(14):3179-95. doi: 10.1088/0031-9155/49/14/012.

Abstract

It is desirable to reduce range ambiguities in treatment planning for making full use of the major advantage of heavy-ion radiotherapy, that is, good dose localization. A range verification system using positron emitting beams has been developed to verify the ranges in patients directly. The performance of the system was evaluated in beam experiments to confirm the designed properties. It was shown that a 10C beam could be used as a probing beam for range verification when measuring beam properties. Parametric measurements indicated the beam size and the momentum acceptance and the target volume did not influence range verification significantly. It was found that the range could be measured within an analysis uncertainty of +/-0.3 mm under the condition of 2.7 x 10(5) particle irradiation, corresponding to a peak dose of 96 mGyE (gray-equivalent dose), in a 150 mm diameter spherical polymethyl methacrylate phantom which simulated a human head.

摘要

为充分利用重离子放射治疗的主要优势,即良好的剂量定位,减少治疗计划中的射程模糊性是很有必要的。已开发出一种使用正电子发射束的射程验证系统,用于直接验证患者体内的射程。在束流实验中对该系统的性能进行了评估,以确认其设计特性。结果表明,在测量束流特性时,10C束可作为射程验证的探测束。参数测量表明,束斑尺寸、动量接受度和靶体积对射程验证的影响不显著。发现在直径为150毫米的模拟人头的球形聚甲基丙烯酸甲酯体模中,在2.7×10(5)次粒子照射条件下,对应峰值剂量为96 mGyE(灰当量剂量)时,射程测量的分析不确定度在±0.3毫米以内。

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