A microdosimetric understanding of low-dose radiation effects.

International journal of radiation biology and related studies in physics, chemistry, and medicine Pub Date : 1988-01-01 DOI:10.1080/09553008814550381

J Booz, L E Feinendegen

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引用次数: 48

Abstract

This paper presents a microdosimetric approach to the problem of radiation response by which effects produced at low doses and dose rates can be understood as the consequences of radiation absorption events in the nucleus of a single relevant cell and in its DNA. Radiation absorption at the cellular level, i.e. in the cell nucleus as a whole, is believed to act through radicals. This kind of action is called 'non-specific' and leads to the definition of an 'elemental dose' and the 'integral response probability' of a cell population. Radiation absorption at the molecular level, i.e. in sensitive parts of the DNA, is thought to act through double-strand breaks. This kind of action is called 'specific' and leads to a 'relative local efficiency'. In general, both mechanisms occur for all types of radiation; however, it is the dose contribution of both specific and non-specific effects that determines the radiation quality of a given radiation. The implications of this approach for the specification of low-dose and low dose-rate regions are discussed.

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低剂量辐射效应的微剂量学研究。

本文提出了一种处理辐射反应问题的微剂量学方法，通过这种方法，在低剂量和剂量率下产生的效应可以理解为单个相关细胞的细胞核及其DNA中的辐射吸收事件的后果。在细胞水平上，即在整个细胞核中，辐射吸收被认为是通过自由基起作用的。这种作用被称为“非特异性”，并导致细胞群的“元素剂量”和“整体反应概率”的定义。分子水平上的辐射吸收，即DNA的敏感部分，被认为是通过双链断裂起作用的。这种行为被称为“特定的”，并导致“相对的局部效率”。一般来说，这两种机制都适用于所有类型的辐射;然而，特定效应和非特定效应的剂量贡献决定了某一特定辐射的辐射质量。讨论了这种方法对低剂量和低剂量率区域的说明的意义。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International journal of radiation biology and related studies in physics, chemistry, and medicine

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