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引用次数: 0

摘要

在使用高能辐射的放射治疗中,人体暴露于中子中。本文综述了有关中子生物效应的知识,包括最近在日本和欧洲的项目中获得的知识。一项对日本原子弹幸存者进行的研究表明,在癌症风险方面,25-80的相对生物有效性(RBE)非常高(作为点估计值)。动物研究表明,在诱导癌症方面,RBE为2-100甚至更高,似乎在1兆电子伏特左右有一个峰值。有证据表明,这些价值观取决于年龄和性别。据报道,RBE对眼睛晶状体的影响也在类似的范围内,有时甚至非常高。对于其他组织反应,报道的RBE值在2-10之间。在细胞水平上的实验已经报道了关于细胞杀伤的RBE为1-5,关于诱导突变的RBE为2-20(在~1 MeV时达到峰值),关于诱导DNA双链断裂的RBE为~1。模拟研究预测,诱导复杂DNA断裂的RBE在~1 MeV处达到峰值,值为~17。产生的复杂断裂在数量上可能远远少于简单的DNA断裂,导致总DNA断裂产量的微妙增加;然而,这些复杂的损伤可能在诱导突变和癌症方面非常有效。因此,复杂DNA损伤的产率及其诱导癌症的功效被认为是中子与癌症风险相关的高RBE的基础。
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[Biological Effects of Neutron Radiation: An Overview].

Exposure of human body to neutrons occurs in radiotherapy using high-energy radiations. This review summarizes knowledges related to biological effects of neutrons, including those obtained in recent projects in Japan and Europe. A study of Japanese atomic bomb survivors with recently revised dosimetry indicated very high relative biological effectiveness (RBE) of 25-80 (as point estimates) regarding cancer risk. Animal studies indicate RBE of 2-100 or even higher regarding cancer induction, which seem to have a peak around ~1 MeV. Evidence suggests that these values depend on the age and sex. Reported RBE regarding the effects on the lens of the eye is in a similar range and sometimes very high. Regarding other tissue reactions, reported RBE values range from 2-10. Experiments at the cellular level have reported RBE of 1-5 regarding cell killing, 2-20 regarding induction of mutations (with a peak at ~1 MeV), and ~1 regarding induction of DNA double strand breaks. A simulation study predicted that the RBE of induction of complex DNA breaks peaks at ~1 MeV with a value of ~17. The complex breaks produced are likely to be far less in amount than simple DNA breaks, leading to a subtle increase in the yield of total DNA breaks; however, these complex damages may be very efficient in inducing mutations and cancer. Thus, the combination of the yield of complex DNA damage and its efficacy in inducing cancer is considered to underlie the high RBE of neutrons regarding cancer risk.

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