Simplified Monte Carlo dose calculation for therapeutic proton beams

Ryosuke Kohno; Takeji Sakae; Yoshihisa Takada; Keiji Matsumoto; Hiroyuki Matsuda; Akihiro Nohtomi; Toshiyuki Terunuma; Yoshikazu Tsunashima

doi:10.1143/jjap.41.l294

Simplified Monte Carlo dose calculation for therapeutic proton beams

Ryosuke Kohno, Takeji Sakae, Yoshihisa Takada, Keiji Matsumoto, Hiroyuki Matsuda, Akihiro Nohtomi, Toshiyuki Terunuma, Yoshikazu Tsunashima

研究成果: ジャーナルへの寄稿 › 学術誌 › 査読

18 被引用数 (Scopus)

抄録

A simplified Monte Carlo (SMC) method has been developed for dose calculation of therapeutic proton beams. It uses the depth-dose distribution in water measured by a broad proton beam to calculate the energy loss in a material easily and accurately. It employs the water-equivalent model of inhomogeneous materials. In addition, the multiple scattering effect in the materials is also calculated using the water-equivalent thickness. The accuracy of dose calculations by the SMC method is verified by comparison with dose measurements in a heterogeneous phantom. Results of the measured dose distributions agree well with calculations by the SMC method, though those determined by the dose calculation method based on the pencil beam algorithm show a large discrepancy. Therefore, the dose-calculation method by the SMC method will be useful for application to the treatment planning for proton therapy.

本文言語	英語
ページ（範囲）	L294-L297
ジャーナル	Japanese Journal of Applied Physics, Part 2: Letters
巻	41
号	3 A
DOI	https://doi.org/10.1143/jjap.41.l294
出版ステータス	出版済み - 3月 1 2002
外部発表	はい

!!!All Science Journal Classification (ASJC) codes

工学（全般）
物理学および天文学（その他）
物理学および天文学（全般）

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abstract = "A simplified Monte Carlo (SMC) method has been developed for dose calculation of therapeutic proton beams. It uses the depth-dose distribution in water measured by a broad proton beam to calculate the energy loss in a material easily and accurately. It employs the water-equivalent model of inhomogeneous materials. In addition, the multiple scattering effect in the materials is also calculated using the water-equivalent thickness. The accuracy of dose calculations by the SMC method is verified by comparison with dose measurements in a heterogeneous phantom. Results of the measured dose distributions agree well with calculations by the SMC method, though those determined by the dose calculation method based on the pencil beam algorithm show a large discrepancy. Therefore, the dose-calculation method by the SMC method will be useful for application to the treatment planning for proton therapy.",

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T1 - Simplified Monte Carlo dose calculation for therapeutic proton beams

AU - Kohno, Ryosuke

AU - Sakae, Takeji

AU - Takada, Yoshihisa

AU - Matsumoto, Keiji

AU - Matsuda, Hiroyuki

AU - Nohtomi, Akihiro

AU - Terunuma, Toshiyuki

AU - Tsunashima, Yoshikazu

PY - 2002/3/1

Y1 - 2002/3/1

N2 - A simplified Monte Carlo (SMC) method has been developed for dose calculation of therapeutic proton beams. It uses the depth-dose distribution in water measured by a broad proton beam to calculate the energy loss in a material easily and accurately. It employs the water-equivalent model of inhomogeneous materials. In addition, the multiple scattering effect in the materials is also calculated using the water-equivalent thickness. The accuracy of dose calculations by the SMC method is verified by comparison with dose measurements in a heterogeneous phantom. Results of the measured dose distributions agree well with calculations by the SMC method, though those determined by the dose calculation method based on the pencil beam algorithm show a large discrepancy. Therefore, the dose-calculation method by the SMC method will be useful for application to the treatment planning for proton therapy.

AB - A simplified Monte Carlo (SMC) method has been developed for dose calculation of therapeutic proton beams. It uses the depth-dose distribution in water measured by a broad proton beam to calculate the energy loss in a material easily and accurately. It employs the water-equivalent model of inhomogeneous materials. In addition, the multiple scattering effect in the materials is also calculated using the water-equivalent thickness. The accuracy of dose calculations by the SMC method is verified by comparison with dose measurements in a heterogeneous phantom. Results of the measured dose distributions agree well with calculations by the SMC method, though those determined by the dose calculation method based on the pencil beam algorithm show a large discrepancy. Therefore, the dose-calculation method by the SMC method will be useful for application to the treatment planning for proton therapy.

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Simplified Monte Carlo dose calculation for therapeutic proton beams

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!!!All Science Journal Classification (ASJC) codes

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