大规模核与辐射事故受照人员生物剂量估算的应对策略

Abstract

Abstract: Biological dose estimation plays an indispensable and important role for early clinical classification diagnosis of these victims after large-scale nuclear radiation events, and developing effective response strategy for the dosimetry is an important topic for researchers. This paperreviews the response strategy on biodosimetry of these subjects for large-scale nuclear radiation incidents.Biological dose estimation plays an indispensable role in the early clinical classification diagnosis of those exposed to large-scale nuclear/radiation incidents. Developing effective strategies for it is thus an issue that deserves attention and discussion. Based on a brief introduction to the scenarios and characteristics involved, and also the role of biodosimetry therein, we give an overview of the relevant strategies.

Key words: Large-scale nuclear/radiation incidents, Biodosimetry, Response strategy

CLC Number:

R148

Lv Yumin, Liu Yulong, Sheng Junsheng, Liu Ming, Han Lin, Zhao Fengling. Strategy of Biological Dosimetry for Those Exposed to Large-Scale Nuclear/Radiological Incidents[J].RADIATION PROTECTION BULLETIN, 2022, 42(4-5): 69-73.

References

[1] International Atomic Energy Agency. Cytogenetic dosimetry: applications in preparedness for response to radiation emergencies [R]. IAEA, Vienna, 2011.
[2] International Atomic Energy Agency. Manual for first responders to a radiological emergency, EPR-FIRST RESPONDERS [R]. IAEA, Vienna, 2006.
[3] International Organization for Standardization. Radiation protection-performance criteria for laboratories performing cytogenetic triage for assessment of mass casualties in radiological or nuclear emergencies-general principles and application to dicentric assay: ISO 21243 [S]. ISO, Geneva, 2008.
[4] Alexander G A, Swartz H M,Amundson S A, et al. Biodos EPR-2006 Meeting: Acute dosimetry consensus committee recommendations on biodosimetry applications in events involving uses of radiation by terrorists and radiation accidents [J]. Radiat Meas, 2007, 42(6-7): 972-996.
[5] Blakely W F, Salter C A, Prasanna P G. Early-response biological dosimetry—recommended countermeasure enhancements for mass casualty radiological incidents and terrorism [J]. Health Phys, 2005, 89(5): 494-504.
[6] 吕玉民. 染色体畸变在急、慢性辐射损伤评估中的意义专家解析[J]. 中国辐射卫生, 2019,28(4):349-354,360.
[7] Sasaki M S, Hayata I, Kamada N, et al. Chromosome aberration analysis in persons exposed to low-level radiation from the JCO criticality accident in Tokai-mura [J]. J Radiat Res, 2001, 42 (Suppl.), S107-S116.
[8] Han L,Gao Y,Wang P, et al.Cytogenetic biodosimetry for radiation accidents in China[J]. Radiat Med Prot, 2020, 1(3): 133-139.
[9] Sevan'kaev A V. Results of cytogenetic studies of the consequences of the Chernobyl accident [J]. Radiats Biol Radioecol. 2000, 40(5): 589-595.
[10] Ramalho A T, Nascimento A C. The fate of chromosomal aberrations in ¹³⁷Cs-exposed individuals in the Goiânia radiation accident [J]. Health Phys, 1991,60(1): 67-70.
[11] Murata H, Akashi M. The report of the criticality accident in a uranium conversion test plant in Tokai-mura, NIRS-M-154 [R]. National Institute of Radiation Sciences, Japan, 2002.
[12] Lloyd D C, Edwards A A, Moquet J E, et al. The role of cytogenetics in early triage of radiation casualties [J]. Appl Radiat Isot, 2000, 52(5): 1107-1112.
[13] Flegal F N, Devantier Y, McNamee J P, et al. Quickscan dicentric chromosome analysis for radiation biodosimetry [J]. Health Phys, 2010, 98(2): 276-281.
[14] 王平, 韩林, 李杰, 等. 双着丝粒染色体分析在核与辐射应急生物剂量估算中的应用与进展[J]. 辐射防护通讯, 2020, 40(4-5): 97-102.
[15] 韩林,陆雪,李杰, 等.双着丝粒体半自动与人工分析估算生物剂量的比较研究[J].中华放射医学与防护杂志,2020,40(11):826-831.
[16] 王平, 吕玉民. 染色体畸变指标作为辐射生物剂量计在国内的发展与展望[J]. 中国卫生检验杂志, 2019, 29(15): 1919-1920; 29(16): 2047-2048.
[17] Mcnamee J P, Flegal F N, Boulay Greene H, et al. Validation of the Cytokinesis-Block Micronucleus (CBMN)assay for use as a triage biological dosimetry tool[J]. Radiat Prot Dosim, 2009, 135(4): 232-242.
[18] Romm H, Ainsbury E A, Barquinero J F, et al. Web based scoring is useful for validation and harmonisation of scoring criteria within RENEB [J]. Int J Radiat Biol, 2017, 93(1):110-117.
[19] 吴丽娜,潘艳,阮健磊,等.全国生物剂量估算能力考核结果分析[J]. 中华放射医学与防护杂志, 2018, 38(5): 360-363.
[20] 戴宏, 刘玉龙, 冯骏超, 等. 双着丝粒染色体自动分析生物剂量估算研究[J]. 中华放射医学与防护杂志, 2017, 37(3):182-186.
[21] 韩林, 张冰洁, 王平,等. 一起介入治疗意外照射导致背部大面积放射性皮肤损伤患者的生物剂量估算[J]. 中华放射医学与防护杂志, 2021, 41(12):886-891.

Strategy of Biological Dosimetry for Those Exposed to Large-Scale Nuclear/Radiological Incidents

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