A computational model for low-dose radiation induced cellular transformation by different radiation quantity

Q4 Medicine International Journal of Low Radiation Pub Date : 2011-12-13 DOI:10.1504/IJLR.2011.044194

T. Mei, Gen Yang, Weikang Wang, Yugang Wang, Lijun Wu

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Abstract

In this study, a new mechanism model is constructed to fit the experimental data from different radiation quantities. The aim of the study was to construct a comprehensive model that contained all the essential biological mechanisms, such as direct irradiation effects or bystander effects, induced DNA damage, Double-Strand Break (DSB) error-free or error-prone repair and genomic instability, which can influence dose responses at low doses of ionising radiation. Results demonstrate that this new model is reasonably predictive of observed in in vitro experimental data obtained with alpha particles or X-rays, producing the correct shape of complex curves and satisfactory numerical agreement, respectively. On the other hand, the comparison of calculated repair rates with different quantities of irradiation suggests that X-ray induced DSB error-free repair rate is faster than alpha particles. In addition, both the highand low-LET irradiation induced dose-response curves could be fitted with the present model.

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低剂量辐射诱导不同辐射量细胞转化的计算模型

在本研究中，建立了一个新的机制模型来拟合不同辐射量的实验数据。该研究的目的是构建一个包含所有基本生物学机制的综合模型，如直接辐照效应或旁观者效应、诱导DNA损伤、无错误或易错误的双链断裂(DSB)修复和基因组不稳定性，这些机制都会影响低剂量电离辐射的剂量反应。结果表明，该模型能较好地预测α粒子和x射线在体外实验中得到的观察数据，得到正确的复杂曲线形状和满意的数值一致性。另一方面，对不同辐照量下计算修复率的比较表明，x射线诱导的DSB无差错修复率比α粒子更快。此外，高let和低let辐照诱导的剂量-响应曲线都可以用该模型拟合。

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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来源期刊

International Journal of Low Radiation Environmental Science-Health, Toxicology and Mutagenesis

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期刊介绍： The IJLR is a peer-reviewed journal dedicated to the publication of research articles, review papers and technical notes in all domains related to low-dose radiation, among which are the biological and health effects in humans and the biota, in vitro and in vivo research on low radiation effects, regulatory and policy aspects, risk estimation and public perception.