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1
THE DOSE AND DOSE-RATE EFFECTIVENESS FACTOR (DDREF).剂量与剂量率有效性因子(DDREF)。
Health Phys. 2019 Jan;116(1):96-99. doi: 10.1097/HP.0000000000000958.
2
Space Radiation Quality Factors and the Delta Ray Dose and Dose-Rate Reduction Effectiveness Factor.空间辐射品质因数与δ射线剂量及剂量率降低有效性因子
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The Role of Modeling in Radiation Protection.建模在辐射防护中的作用。
Health Phys. 2020 Mar;118(3):271-280. doi: 10.1097/HP.0000000000001219.
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Can we use Mechanistic Data in Risk Assessment?我们能否在风险评估中使用机理数据?
Health Phys. 2020 Mar;118(3):266-270. doi: 10.1097/HP.0000000000001189.
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Towards a new dose and dose-rate effectiveness factor (DDREF)? Some comments.迈向新的剂量与剂量率有效性因子(DDREF)?一些评论。
J Radiol Prot. 2017 Jun 26;37(2):422-433. doi: 10.1088/1361-6498/aa6722. Epub 2017 May 10.
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Current discussions of DDREF, cataracts, circulatory diseases and dose limits.当前关于剂量当量率(DDREF)、白内障、循环系统疾病及剂量限值的讨论。
Radiat Prot Dosimetry. 2015 Apr;164(1-2):34-7. doi: 10.1093/rpd/ncu311. Epub 2014 Oct 13.
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Low-dose risk assessment.低剂量风险评估。
Radiat Res. 2007 Jun;167(6):742-4; author reply 744. doi: 10.1667/RR0917.1.
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LNT: a never-ending story.低剂量辐射效应(LNT):一个永无止境的故事。
Radiat Environ Biophys. 2006 Mar;44(4):241-4. doi: 10.1007/s00411-006-0028-5.
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Assessment and mitigation of radiation hazard for individuals engaged in reconnaissance survey in uranium exploration in Jharkhand, India.评估和减轻印度恰尔康得邦铀矿勘查中从事勘查工作的个人所面临的辐射危害。
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Two principal considerations are needed after low doses of ionizing radiation.低剂量电离辐射后需要考虑两个主要因素。
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Radiation dose rate effects: what is new and what is needed?辐射剂量率效应:有哪些新发现和需求?
Radiat Environ Biophys. 2022 Nov;61(4):507-543. doi: 10.1007/s00411-022-00996-0. Epub 2022 Oct 15.
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Methodological improvements to meta-analysis of low dose rate studies and derivation of dose and dose-rate effectiveness factors.低剂量率研究荟萃分析方法的改进及剂量和剂量率效应因子的推导。
Radiat Environ Biophys. 2021 Aug;60(3):485-491. doi: 10.1007/s00411-021-00921-x. Epub 2021 Jul 4.
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Risk of cancer associated with low-dose radiation exposure: comparison of results between the INWORKS nuclear workers study and the A-bomb survivors study.低剂量辐射暴露与癌症风险关联:INWORKS 核工作人员研究与原子弹幸存者研究结果比较。
Radiat Environ Biophys. 2021 Mar;60(1):23-39. doi: 10.1007/s00411-020-00890-7. Epub 2021 Jan 21.
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Dose limits for occupational exposure to ionising radiation and genotoxic carcinogens: a German perspective.职业性接触电离辐射和遗传毒性致癌物的剂量限值:德国的观点。
Radiat Environ Biophys. 2020 Mar;59(1):9-27. doi: 10.1007/s00411-019-00817-x. Epub 2019 Nov 1.

本文引用的文献

1
Probability Distribution of Dose and Dose-Rate Effectiveness Factor for use in Estimating Risks of Solid Cancers From Exposure to Low-Let Radiation.用于估算低传能线密度辐射暴露所致实体癌风险的剂量及剂量率有效性因子的概率分布
Health Phys. 2018 Jun;114(6):602-622. doi: 10.1097/HP.0000000000000838.
2
Evidence for dose and dose rate effects in human and animal radiation studies.人类和动物辐射研究中剂量和剂量率效应的证据。
Ann ICRP. 2018 Oct;47(3-4):97-112. doi: 10.1177/0146645318756235. Epub 2018 Apr 13.
3
Typical doses and dose rates in studies pertinent to radiation risk inference at low doses and low dose rates.与低剂量和低剂量率辐射风险推断相关研究中的典型剂量和剂量率。
J Radiat Res. 2018 Apr 1;59(suppl_2):ii1-ii10. doi: 10.1093/jrr/rrx093.
4
Nuclear epidemiologic studies and the estimation of DREF.核流行病学研究与剂量率效应因子(DREF)的估算
Int J Radiat Biol. 2018 Apr;94(4):307-314. doi: 10.1080/09553002.2018.1437483. Epub 2018 Feb 20.
5
Dose and dose rate extrapolation factors for malignant and non-malignant health endpoints after exposure to gamma and neutron radiation.暴露于伽马射线和中子辐射后,针对恶性和非恶性健康终点的剂量和剂量率外推因子。
Radiat Environ Biophys. 2017 Nov;56(4):299-328. doi: 10.1007/s00411-017-0707-4. Epub 2017 Sep 22.
6
Risk of solid cancer in low dose-rate radiation epidemiological studies and the dose-rate effectiveness factor.低剂量率辐射流行病学研究中实体癌的风险与剂量率有效性因子
Int J Radiat Biol. 2017 Oct;93(10):1064-1078. doi: 10.1080/09553002.2017.1319090. Epub 2017 May 15.
7
Correction of confidence intervals in excess relative risk models using Monte Carlo dosimetry systems with shared errors.使用具有共享误差的蒙特卡洛剂量测定系统校正超额相对风险模型中的置信区间。
PLoS One. 2017 Apr 3;12(4):e0174641. doi: 10.1371/journal.pone.0174641. eCollection 2017.
8
Biologically-based mechanistic models of radiation-related carcinogenesis applied to epidemiological data.应用于流行病学数据的基于生物学的辐射相关致癌作用机制模型。
Int J Radiat Biol. 2017 Oct;93(10):1093-1117. doi: 10.1080/09553002.2017.1310405. Epub 2017 Apr 25.
9
Solid Cancer Incidence among the Life Span Study of Atomic Bomb Survivors: 1958-2009.原子弹爆炸幸存者寿命研究中的实体癌发病率:1958 - 2009年
Radiat Res. 2017 May;187(5):513-537. doi: 10.1667/RR14492.1. Epub 2017 Mar 20.
10
Dose-rate effects in radiation biology and radiation protection.辐射生物学与辐射防护中的剂量率效应。
Ann ICRP. 2016 Jun;45(1_suppl):262-279. doi: 10.1177/0146645316629336.

THE DOSE AND DOSE-RATE EFFECTIVENESS FACTOR (DDREF).

作者信息

Wakeford Richard, Azizova Tamara, Dörr Wolfgang, Garnier-Laplace Jacqueline, Hauptmann Michael, Ozasa Kotaro, Rajaraman Preetha, Sakai Kazuo, Salomaa Sisko, Sokolnikov Mikhail, Stram Dan, Sun Quanfu, Wojcik Andrzej, Woloschak Gayle, Bouffler Simon, Grosche Bernd, Kai Michiaki, Little Mark P, Shore Roy E, Walsh Linda, Rühm Werner

机构信息

Committee 1 of the International Commission on Radiological Protection Committee 1 of the International Commission on Radiological Protection Task Group 91 of the International Commission on Radiological Protection Committee 1 of the International Commission on Radiological Protection Committee 1 of the International Commission on Radiological Protection Committee 1 of the International Commission on Radiological Protection Committee 1 of the International Commission on Radiological Protection Task Group 91 of the International Commission on Radiological Protection Committee 1 of the International Commission on Radiological Protection Committee 1 of the International Commission on Radiological Protection Task Group 91 of the International Commission on Radiological Protection Committee 1 of the International Commission on Radiological Protection Committee 1 of the International Commission on Radiological Protection Committee 1 of the International Commission on Radiological Protection Committee 1 of the International Commission on Radiological Protection Task Group 91 of the International Commission on Radiological Protection Committee 1 of the International Commission on Radiological Protection Committee 1 of the International Commission on Radiological Protection Task Group 91 of the International Commission on Radiological Protection Task Group 91 of the International Commission on Radiological Protection Task Group 91 of the International Commission on Radiological Protection Task Group 91 of the International Commission on Radiological Protection Task Group 91 of the International Commission on Radiological Protection Task Group 91 of the International Commission on Radiological Protection Task Group 91 of the International Commission on Radiological Protection Committee 1 of the International Commission on Radiological Protection Task Group 91 of the International Commission on Radiological Protection.

出版信息

Health Phys. 2019 Jan;116(1):96-99. doi: 10.1097/HP.0000000000000958.

DOI:10.1097/HP.0000000000000958
PMID:30489371
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10666559/
Abstract
摘要