直线加速器进行光子放射治疗期间组织等效体模中的中子能谱。

Neutron spectra in a tissue equivalent phantom during photon radiotherapy treatment by LINACS.

作者信息

Zanini A, Durisi E, Fasolo F, Visca L, Ongaro C, Nastasi U, Burn K W, Annand J R M

机构信息

INFN, Via P. Giuria 1, 10125 Torino, Italy.

出版信息

Radiat Prot Dosimetry. 2004;110(1-4):157-60. doi: 10.1093/rpd/nch205.

DOI:10.1093/rpd/nch205

PMID:15353639

Abstract

Bremsstrahlung photon beams produced by LINAC accelerators are currently the most used radiotherapy method for tumour treatments. When the photon energy exceeds the (gamma,n) reaction threshold energy, the patient receives an undesired dose due to photoneutron production both in the accelerator head and in the human body. In this paper, a method is presented for the assessment of the photoneutron spectra produced by Giant Dipole Resonance (GDR) during cancer radiotherapy with energetic photon beams. Experimental and numerical results have been obtained for the facility at Onkologik Klinik, Lund (Sweden), which is based on an ELEKTA 18 MV LINAC. Neutron spectra are evaluated both at the patient plane and inside an anthropomorphic phantom.

摘要

直线加速器产生的轫致辐射光子束是目前肿瘤治疗中最常用的放射治疗方法。当光子能量超过（γ，n）反应阈能时，由于加速器头部和人体中产生光中子，患者会接受不必要的剂量。本文提出了一种在癌症放射治疗中使用高能光子束时评估巨偶极共振（GDR）产生的光中子能谱的方法。已获得瑞典隆德肿瘤诊所基于ELEKTA 18 MV直线加速器的设施的实验和数值结果。在患者平面和人体模型内部都对中子能谱进行了评估。

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直线加速器进行光子放射治疗期间组织等效体模中的中子能谱。

Neutron spectra in a tissue equivalent phantom during photon radiotherapy treatment by LINACS.

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