Lessons from the Fukushima Daiichi nuclear power plant accident -from a research perspective.

Annals of the ICRP Pub Date : 2021-07-01 Epub Date: 2021-06-10 DOI:10.1177/01466453211015394
Satoshi Tashiro
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Abstract

Since the accident at Fukushima Daiichi nuclear power plant, there has been a focus on the impact of low-dose radiation exposure due to nuclear disasters and radiology on human bodies. In order to study very low levels of impact on the human body from low-dose radiation exposure, a system with high detection sensitivity is needed. Until now, the most well-established biological radiation effect detection system in the field of emergency radiation medicine has been chromosomal analysis. However, chromosomal analysis requires advanced skills, and it is necessary to perform chromosomal analysis of a large number of cells in order to detect slight effects on the human body due to low-dose radiation exposure. Therefore, in order to study the effects of low-dose radiation exposure on the human body, it is necessary to develop high-throughput chromosome analysis technology. We have established the PNA-FISH method, which is a fluorescence in-situ hybridisation method using a PNA probe, as a high-throughput chromosome analysis technique. Using this method, the detection of dicentrics and ring chromosomes has become very efficient. Using this technology, chromosomal analysis was performed on peripheral blood before and after computed tomography (CT) examination of patients at Hiroshima University Hospital, and it was possible to detect chromosomal abnormalities due to low-dose radiation exposure in the CT examination. Furthermore, it was shown that there may be individual differences in the increase in chromosomal abnormalities due to low-dose radiation exposure, suggesting the need to build a next-generation medical radiation exposure management system based on individual differences in radiation sensitivity. If techniques such as chromosomal analysis, which have been used for biological dose evaluation in emergency radiation medicine, can be used for general radiology, such as radiodiagnosis and treatment, that will be a contribution to radiology from an unprecedented angle. This article will discuss the clinical application of new biological dose evaluation methods that have been developed in the field of emergency radiation medicine.

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福岛第一核电站事故的教训——从研究的角度。
自福岛第一核电站事故发生以来,人们一直关注核灾难造成的低剂量辐射暴露和放射学对人体的影响。为了研究低剂量辐射照射对人体的极低水平影响,需要具有高检测灵敏度的系统。迄今为止,在急诊放射医学领域最完善的生物辐射效应检测系统是染色体分析。然而,染色体分析需要先进的技术,为了检测低剂量辐射照射对人体的轻微影响,需要对大量细胞进行染色体分析。因此,为了研究低剂量辐射照射对人体的影响,有必要发展高通量染色体分析技术。我们建立了PNA- fish方法,这是一种使用PNA探针的荧光原位杂交方法,是一种高通量的染色体分析技术。使用这种方法,双着丝和环染色体的检测变得非常有效。利用该技术对广岛大学医院患者CT检查前后的外周血进行了染色体分析,并在CT检查中发现了由于低剂量辐射照射引起的染色体异常。此外,低剂量辐射暴露导致的染色体异常增加可能存在个体差异,提示有必要建立基于个体辐射敏感性差异的下一代医疗辐射暴露管理系统。如果在紧急放射医学中用于生物剂量评价的染色体分析等技术可以用于放射诊断和治疗等一般放射学,那将从前所未有的角度对放射学作出贡献。本文将讨论在急诊放射医学领域发展起来的新的生物剂量评价方法的临床应用。
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来源期刊
Annals of the ICRP
Annals of the ICRP Medicine-Public Health, Environmental and Occupational Health
CiteScore
4.10
自引率
0.00%
发文量
3
期刊介绍: The International Commission on Radiological Protection was founded in 1928 to advance for the public benefit the science of radiological protection. The ICRP provides recommendations and guidance on protection against the risks associated with ionising radiation, from artificial sources as widely used in medicine, general industry and nuclear enterprises, and from naturally occurring sources. These reports and recommendations are published six times each year on behalf of the ICRP as the journal Annals of the ICRP. Each issue provides in-depth coverage of a specific subject area.
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