低剂量辐射随机效应非线性剂量-反应关系的机理基础。

Bobby R Scott, Dale M Walker, Yohannes Tesfaigzi, Helmut Schöllnberger, Vernon Walker
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引用次数: 50

摘要

线性非阈值(LNT)模型在人类低剂量辐射风险评估中起着核心作用。在LNT模型中,任何辐射暴露都被认为会增加患癌症的风险。根据LNT模型,其他人预测了数万人的死亡与核事故(例如切尔诺贝利)和核武器试验的沉降物造成的放射性物质的环境暴露有关。在这里,我们介绍了一个基于机制的低剂量、辐射诱导的随机效应(基因组不稳定、细胞凋亡、突变、肿瘤转化)模型,该模型仅在特殊情况下导致肿瘤转化风险与剂量之间的LNT关系。研究表明,基于已知的生物学机制,随机效应(有问题的非致死突变,肿瘤转化)风险的非线性剂量-反应关系应该是预期的。此外,对于低剂量、低剂量率、低let辐射,可能存在较大的致癌阈值。我们总结了先前发表的表明癌症诱导的大阈值的数据。我们还提供了低剂量辐射诱导的保护(假设通过细胞凋亡)的证据。根据其他人(Chung 2002)的工作,我们推测这种保护也可能被诱导作用于现有的癌细胞,并可能被诱导凋亡的药物(如膳食异硫氰酸酯)放大。
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Mechanistic basis for nonlinear dose-response relationships for low-dose radiation-induced stochastic effects.

The linear nonthreshold (LNT) model plays a central role in low-dose radiation risk assessment for humans. With the LNT model, any radiation exposure is assumed to increase one's risk of cancer. Based on the LNT model, others have predicted tens of thousands of deaths related to environmental exposure to radioactive material from nuclear accidents (e.g., Chernobyl) and fallout from nuclear weapons testing. Here, we introduce a mechanism-based model for low-dose, radiation-induced, stochastic effects (genomic instability, apoptosis, mutations, neoplastic transformation) that leads to a LNT relationship between the risk for neoplastic transformation and dose only in special cases. It is shown that nonlinear dose-response relationships for risk of stochastic effects (problematic nonlethal mutations, neoplastic transformation) should be expected based on known biological mechanisms. Further, for low-dose, low-dose rate, low-LET radiation, large thresholds may exist for cancer induction. We summarize previously published data demonstrating large thresholds for cancer induction. We also provide evidence for low-dose-radiation-induced, protection (assumed via apoptosis) from neoplastic transformation. We speculate based on work of others (Chung 2002) that such protection may also be induced to operate on existing cancer cells and may be amplified by apoptosis-inducing agents such as dietary isothiocyanates.

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