Facilitating the End of the Linear No-Threshold Model Era.

Mohan Doss
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Abstract

The linear no-threshold (LNT) model, which asserts that any level of ionizing radiation increases cancer risk, has been the basis of global radiation protection policies since the 1950s. Despite ongoing endorsements, a growing body of evidence challenges the LNT model, suggesting instead that low-level radiation exposure might reduce cancer risk, a concept known as radiation hormesis. This editorial examines the persistence of the LNT model despite evidence favoring radiation hormesis and proposes a solution: a public, online debate between proponents of the LNT model and advocates of radiation hormesis. This debate, organized by a government agency like Medicare, would be transparent and thorough, potentially leading to a shift in radiation protection policies. Acceptance of radiation hormesis could significantly reduce cancer mortality rates and streamline radiation safety regulations, fostering medical innovation and economic growth.

推动无阈值线性模型时代的终结。
线性无阈值(LNT)模型认为任何水平的电离辐射都会增加癌症风险,自 20 世纪 50 年代以来,该模型一直是全球辐射防护政策的基础。尽管线性无阈值模型不断得到认可,但越来越多的证据对其提出了质疑,认为低水平辐照可能会降低癌症风险,这一概念被称为辐射荷尔蒙效应。这篇社论探讨了尽管有证据支持辐射荷尔蒙作用,但 LNT 模型依然存在的问题,并提出了一个解决方案:在 LNT 模型的支持者和辐射荷尔蒙作用的倡导者之间开展一场公开的在线辩论。这场由医疗保险等政府机构组织的辩论将是透明和彻底的,有可能导致辐射防护政策的转变。接受辐射激效理论可以大大降低癌症死亡率,简化辐射安全法规,促进医疗创新和经济增长。
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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