Radiation adaptive response for constant dose-rate irradiation in high background radiation areas.

IF 1.5 4区环境科学与生态学 Q3 BIOLOGY Radiation and Environmental Biophysics Pub Date : 2024-10-29 DOI:10.1007/s00411-024-01093-0

Ernest Bugała, Krzysztof Wojciech Fornalski

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Abstract

The presented paper describes the problem of human health in regions with high level of natural ionizing radiation in various places in the world. The radiation adaptive response biophysical model was presented and calibrated for the special case of constant dose-rate irradiation. The calibration was performed for the data of residents of several high background radiation areas, like Ramsar in Iran, Kerala in India or Yangjiang in China. Studied end-points were: chromosomal aberrations, cancer incidence and cancer mortality. For the case of aberrations, among collected publications about 45% have shown the existence of adaptive response. Average reduction of chromosomal aberrations was ∼ 10%, while for the case of cancer incidence it was ∼ 15% and ∼ 17% for cancer mortality (each taking into account only results showing adaptive response). Results of the other 55% of data regarding chromosomal aberrations have been tested with the LNT (linear no-threshold) hypothesis, but results were inconsistent with the linear model. The conditions for adaptive response occurrence are still unknown, but it is postulated to correlate with the distribution of individual radiosensitivity among members of surveyed populations.

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高本底辐射地区恒定剂量率辐照的辐射适应反应。

本文介绍了世界各地天然电离辐射水平较高地区的人类健康问题。论文介绍了辐射适应反应生物物理模型，并对恒定剂量率辐照的特殊情况进行了校准。校准是针对几个高本底辐射地区的居民数据进行的，如伊朗的拉姆萨尔、印度的喀拉拉邦或中国的阳江。研究的终点包括：染色体畸变、癌症发病率和癌症死亡率。就畸变而言，在收集到的出版物中，约 45% 表明存在适应性反应。染色体畸变的平均减少率为 10%，而癌症发病率的平均减少率为 15%，癌症死亡率的平均减少率为 17%（仅考虑适应性反应的结果）。另外 55%有关染色体畸变的数据结果已经用 LNT（线性无阈值）假说进行了检验，但结果与线性模型不一致。出现适应性反应的条件尚不清楚，但推测它与调查人群中个体辐射敏感性的分布有关。

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

Radiation and Environmental Biophysics 环境科学-核医学

CiteScore

4.00

自引率

5.90%

发文量

审稿时长

>36 weeks

期刊介绍： This journal is devoted to fundamental and applied issues in radiation research and biophysics. The topics may include: Biophysics of ionizing radiation: radiation physics and chemistry, radiation dosimetry, radiobiology, radioecology, biophysical foundations of medical applications of radiation, and radiation protection. Biological effects of radiation: experimental or theoretical work on molecular or cellular effects; relevance of biological effects for risk assessment; biological effects of medical applications of radiation; relevance of radiation for biosphere and in space; modelling of ecosystems; modelling of transport processes of substances in biotic systems. Risk assessment: epidemiological studies of cancer and non-cancer effects; quantification of risk including exposures to radiation and confounding factors Contributions to these topics may include theoretical-mathematical and experimental material, as well as description of new techniques relevant for the study of these issues. They can range from complex radiobiological phenomena to issues in health physics and environmental protection.