Low-Dose Radiation Risks of Lymphohematopoietic Cancer Mortality in U.S. Shipyard Workers.

IF 2.5 3区医学 Q2 BIOLOGY

Radiation research Pub Date : 2024-06-01 DOI:10.1667/RADE-22-00092.1

Xuguang Grant Tao, Frank C Curriero, Mahadevappa Mahesh

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引用次数: 0

Abstract

The linear, non-threshold (LNT) hypothesis of cancer induction derived from studies of populations exposed to moderate-to-high acute radiation doses may not be indicative of cancer risks associated with lifetime radiation exposures less than 100 mSv. The objective of this study was to examine risks and dose-response patterns of lymphohematopoietic cancer (LHC) and its types associated with low radiation exposure while adjusting for possible confounding factors. A retrospective cohort of 437,937 U.S. nuclear shipyard workers (153,930 radiation and 284,007 non-radiation workers) was followed from 1957 to 2011, with 3,699 LHC deaths observed. The risk of LHC in radiation workers was initially compared to the risk in non-radiation workers. Time dependent accumulated radiation dose, lagged 2 years, was used in categorical and continuous dose analysis among radiation workers to examine the LHC risks and possible dose-response relationships based on Poisson regression models. These analyses controlled for sex, race, time dependent age, calendar time, socioeconomic status, solvent-related last job, and age at first hire. The median lifetime radiation dose for the radiation worker population was 0.82 mSv and the 95th percentile dose was 83.63 mSv. The study shows: 1. LHC mortality for radiation workers was significantly lower than non-radiation workers relative risk: 0.927; 95% confidence intervals (95% CI): 0.865, 0.992; P = 0.030]. Among LHC types, the risks for lymphoid leukemia and lymphomas in radiation workers were lower than the risk in non-radiation workers with statistical significance, while the risk for the rest of LHC types did not show any statistically significant difference. 2. In categorical dose analysis among radiation workers, sample size weighted linear trend of relative risk (RRs) for LHC and its types in five dose categories (>0-<25, 25-<50, 50-<100, 100-<200, and > = 200 mSv) vs. 0 mSv were not statistically significant, although there was an elevation of RR for chronic myeloid leukemia only in the 50-<100 mSv category (RR: 2.746; 95% CI: 1.002, 7.521; P = 0.049) vs. 0 mSv. 3. The Poisson regression analyses among radiation workers using the time dependent radiation dose as a continuous variable showed an excess relative risk (ERR) for LHC at 100 mSv of 0.094 (95% CI: -0.037, 0.225; P = 0.158) and leukemia less chronic lymphoid leukemia, of 0.178 (95% CI: -0.085, 0.440; P = 0.440) vs. 0 mSv. The ERRs and their linear trend for all other types were not statistically significant.

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美国船厂工人淋巴造血癌症死亡率的低剂量辐射风险。

对受到中高急性辐射剂量照射的人群进行研究后得出的线性非阈值（LNT）癌症诱导假说，可能并不能说明终生受到低于 100 毫希沃特的辐射照射会有患癌风险。本研究的目的是在调整可能的混杂因素的同时，研究与低辐照相关的淋巴造血癌症（LHC）及其类型的风险和剂量反应模式。该研究对 1957 年至 2011 年期间的 437,937 名美国核造船厂工人（153,930 名辐射工人和 284,007 名非辐射工人）进行了回顾性队列追踪，共观察到 3,699 例淋巴造血癌死亡病例。最初将辐射工人患 LHC 的风险与非辐射工人的风险进行了比较。在对辐射工作人员进行分类和连续剂量分析时，使用了滞后 2 年的与时间相关的累积辐射剂量，以根据泊松回归模型研究 LHC 风险和可能的剂量-反应关系。这些分析控制了性别、种族、与时间相关的年龄、日历时间、社会经济地位、与溶剂相关的最后一份工作和首次受雇年龄。辐射工作者人群终生辐射剂量的中位数为 0.82 毫西弗，第 95 百分位数为 83.63 毫西弗。研究显示1.大型强子对撞机辐射工作人员的死亡率明显低于非辐射工作人员相对风险：0.927；95% 置信区间（95% CI）：0.865，0.992；P = 0.030]。在各种类型的大型强子对撞机中，放射工作人员患淋巴白血病和淋巴瘤的风险低于非放射工作人员，差异有统计学意义，而其他类型的大型强子对撞机的风险则没有任何统计学意义。2.2. 在辐射工作人员的分类剂量分析中，五个剂量类别（>0- = 200 mSv）与 0 mSv 的 LHC 及其类型相对风险（RRs）的样本量加权线性趋势没有统计学意义，但只有 50- = 200 mSv 的慢性骨髓性白血病的 RRs 有所上升。

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 research 医学-核医学

CiteScore

5.10

自引率

8.80%

发文量

179

审稿时长

1 months

期刊介绍： Radiation Research publishes original articles dealing with radiation effects and related subjects in the areas of physics, chemistry, biology and medicine, including epidemiology and translational research. The term radiation is used in its broadest sense and includes specifically ionizing radiation and ultraviolet, visible and infrared light as well as microwaves, ultrasound and heat. Effects may be physical, chemical or biological. Related subjects include (but are not limited to) dosimetry methods and instrumentation, isotope techniques and studies with chemical agents contributing to the understanding of radiation effects.