Objective To obtain the medical exposure frequency data of residents through a questionnaire survey on mobile phone networks in the community, and to analyze the main influencing factors. Methods A snowball sampling method was used to expand the sampling from medical staff in a county hospital to the community. The questionnaire included personal information such as occupation category, type of medical insurance, and education level as well as basic radiation-related knowledge and medical exposure type and frequency of respondents received in 2021. A logistic regression model was used to analyze the influencing factors of medical exposure. Results A total of 223 respondents were investigated, and 12.56% of them received radiological diagnosis and radiotherapy in 2021. The proportion of males receiving medical exposure was significantly higher than that of females (19.64% vs 10.18%). The likelihood of the person receiving medical exposure increased considerably with age, with the proportion of residents receiving medical exposure at 20, 30, 40, and 50 years of age being 6.25%, 7.95%, 19.23%, and 33.33%, respectively. Of persons who received medical exposure, 57.14% underwent CT scans. Persons participating in the new rural cooperative medical system were likely less to receive radiological diagnosis and radiotherapy than urban workers and residents (OR = 0.55, CI:0.13-2.23, P > 0.05). Conclusion Questionnaire survey in the community can obtain more information about the medical exposure of residents, and age and type of medical insurance are important factors affecting the frequency of medical exposure.

Objective:To understand the non-uranium miners′ awareness of radon and health risks in China and analyze the relevant influencing factors, in order to provide research basis for radiological protection institutions and employers to carry out radon health education.Methods:Male miners in 32 typical non-uranium mines from 11 provinces were selected by using cluster random sampling method from June 2020 to December 2021. The awareness of radon and health risks was investigated, and the influencing factors were analyzed by binary logistic regression model.Results:A total of 1 184 non-uranium miners were investigated, and the radon awareness rate of them was 19.17%. 36.56% of the non-uranium miners heard about radon knew the radon health risks accurately, and 18.06% could identify the measures to reduce radon concentration correctly. Univariate analysis showed that the radon awareness rate of non-uranium miners varied with different education levels, labor relations, post categories, and regions ( χ2=55.92, 21.89, 64.31, 11.26, P<0.05 ). The result of logistic regression analysis showed that a bachelor degree or above, regular employee, administrative personnel and technical personnel were influencing factors of the radon awareness level ( χ2=12.81, 6.58, 5.66, 21.44, P<0.05 ). There was no statistically significant difference of radon awareness rate in different ages, working years, regions, and smoke groups ( P>0.05 ). Conclusions:The awareness level of radon and health risks of non-uranium miners was relatively low in China. Radiological protection institutions and employers should strengthen education and training of radon related knowledge in non-uranium miners through mass media, on-duty training, contract notification and workplace publicity board notification, so as to improve their personal protection consciousness.

Objective:To study the healthcare level (HCL) in China and its influencing factors.Methods:By using the data reported in the China statistical yearbook published by the National Bureau of Statistics and in other public literature, HCL was calculated in terms of the number of population and physicians in the whole country and various provinces. Multiple regression was used to analyze the relationship between HCL and regional population, area, number of administrative divisions and gross domestic product (GDP). Pearson correlation analysis was applied to analyze the relationship between healthcare level and medical radiation frequency. Results:Since 2015, Chinese HCL value was lower than 1 000, but there were two provinces with HCL value greater than 1 000 in 2019. Population and GDP were the influencing factors for the HCL, with correlation coefficients of 0.416 and -0.583, respectively. There was a correlation between HCL and medical exposure frequency of Chinese population( r= -0.620, P=0.028). Conclusions:Chinese HCL value was 542 in 2020, but there has been great differences between various provinces. HCL as an indicator of medical exposure assessment needs further research in China.

Objective:To investigate and analyze the eye lens dose to interventional radiology workers in China from 2019 to 2021.Methods:The monitoring data on eye lens dose to interventional radiology workers from 31 province-level units during 2019-2021 were collected through the National Radiological Health Information Platform. The eye lens dose evaluation indicator was Hp(3), with each monitoring period of no more than 3 months. Kusall-Wallis H test was used for the comparison of multiple groups and pairwise. Results:A total of 6 643 interventional radiology workers were investigated from 2019 to 2021. The average annual eye lens dose was 1.03 mSv, with the median of 0.17 mSv and the maximum of 94.88 mSv. The annual eye lens dose to 59 workers exceeded 20 mSv. It was also found that the annual eye lens dose to the doctors in 2019 and 2020 was slightly higher than that to nurses (rank mean difference=118.29, 129.71, P<0.01), and the lens dose to interventional radiology workers who performed cardiac interventions in 2019 was higher than that to workers who performed peripheral vascular interventions (rank mean difference=46.52, P<0.05). Conclusions:The lens dose to interventional radiology workers is lower than the limits given in Chinese national standard currently in effect, but exceed the latest internationally recommended limit for a few ones. In order to protect the occupational health of interventional radiology workers, the monitoring of lens dose should be strengthened.

Since the implementation of the Measures for the Management of Radiation Workers’ Occupational Health in November 2007, it has played an extremely important role in protecting the occupational health of radiation workers. There are more than 700 000 radiation workers in about 100 000 workplaces with potential radiation exposure, as well as a large number of miners exposed to high levels of radon. As the radiation health monitoring project suggests, measures of occupational health management such as personal dose monitoring and occupational health examination of radiation workers have been widely implemented and achieved good results in the protection of radiation workers. However, the risks of chromosomal aberration and specific turbidity of the eye lens of radiation workers have increased in high-risk positions such as interventional radiology, nuclear medicine, and industrial flaw detection. The control of high radon exposure in miners needs to be strengthened. It is necessary to adapt to the new situation in view of new challenges and actively promote the revision of the Measures for the Management of Radiation Workers’ Occupational Health, so as to further improve the occupational health management of radiation workers in China.

Objective:To estimate the attribution share of residents′lung cancer caused by indoor Radon.Methods:Based on the 2015 lung cancer mortality, all-cause mortality from China together with nationally representative smoking rate and the average indoor radon concentration of 30 Bq/m 3, the relatively authoritative and applicable EPA/BEIR-VI risk model was used to predict the lung cancer mortality caused by indoor radon exposure. Results:The excess relative risk (ERR) of indoor radon-related lung cancer mortality among the male non-smokers is higher than that of smokers. For the age-group above 50, the male smokers and male non-smokers have the highest ERR values, which were 0.511 and 0.230, respectively. Assuming the exposure incurred starting at age 0 with the same radon concentration, the lifetime risk of men and women non-smokers is higher than that of the smokers of the same gender. The higher the radon concentration, the higher the lifetime risk of lung cancer. Assuming that the radon concentration level in China is 30 Bq/m 3, the number of deaths from indoor radon-related lung cancer in 2015 is about 55 512. According to this, about 6.62% of lung cancers are caused by indoor radon exposure. If we assume that radon concentration levels are 40 Bq/m 3and 70 Bq/m 3 in China, approximately 8.82% and 15.38% of lung cancer deaths can be attributed to indoor radon exposure. Conclusions:Indoor radon exposure is an important environmental factor that causes Chinese residential lung cancer. Effective measures should be taken to prevent and control the increasing indoor radon levels. In order to accurately assess risk of lung cancer morality caused by indoor radon, more detailed data such as the indoor radon level in China are needed.

Objective:To explore the probability of causation method ology of male breast cancer and to provide theoretical basis for the diagnosis of occupational radiogenic male breast cancer in China.Methods:Using the male excess relative risk model (EAR) fitted from the Japanese atomic bomb survivors and the female excess absolute risk model (ERR) provided by the Biological Effect of Ionizing Radiation Committee VII (BEIRVII), the breast dose and the probability of causation of the previous case of male breast cancer were calculated.Results:The average probability of causation ( PC) calculated by male ERR model was 94.6%, and the upper limit of 95% PC was 98.3%. Using female EAR model and female breast cancer incidence, the average PC was 70.3%, and the upper limit of 95% PC was 153.3%. when male breast cancer incidence was used, the average PC was 99.2%.By both methods, the male breast cancer patient could be determined to be caused by occupational radiation exposure. Conclusions:The upper limit of 95% PC calculated by female EAR model and female breast cancer incidence was higher than that by male ERR model.The uncertainty of probability of causation for female EAR model still need further research. Occupational radiogenic male breast was proposed to listed in occupational radiogenic neoplasms, which will make the list more perfect and scientific and reasonable to meet potential claims.

Abstract As part of the human environment, ionizing radiation can produce adverse tissue reactions known as determinist- ic effects at sufficiently high exposure levels, and cause stochastic effects (cancer and genetic diseases), where single cells with mutations can trigger somatic or genetic effects, even at low exposure levels. Given the unfavorable health effects of ra- diation, a comprehensive technical report is warranted to address the measurement and control of radiation exposure levels. The Assessment of Prospective Cancer Risks from Occupational Exposure to Ionizing Radiation published by the Internation- al Atomic Energy Agency fills this gap. This paper outlines the methodology of prospective cancer risk assessment for work- ers occupationally exposed to radiation, which provides a flexible framework based on radiobiology, risk modeling, and epi- demiological data and a new tool for managing occupational radiation exposure and assessing potential risks from occupa- tional radiation exposure.

The lens of the eye has been recognized as one of the most radiosensitive tissues. It has been known that a radiation dose of 0.5 Gy or higher can induce radiation cataract. Studies have also demonstrated that long-term exposure to low-dose radiation can increase the risk of lens opacity. However, the specific biologic mechanism of lens opacity induced by low-dose ionizing radiation is still unclear. Many mechanism chains may induce opacity independently or jointly, such as genomic damage in lens epithelial cells, oxidative stress, defects in intercellular communication, and inflammatory reaction, and genetic and epigenetic factors may also play a role. This paper briefly reviews the mechanisms of low-dose ionizing radiation inducing lens opacity as well as the role of genetic susceptibility in its development and progression, in order to provide a scientific reference for the prevention and control of this disease.

In March 2011, a nuclear accident happened and released a large amount of radionuclides into the environment in Fukushima, Japan. This review introduced the latest findings on the relationship between childhood thyroid cancer and radiation exposure after the accident in Fukushima. Many reports suggested that there was no accurate correlation between the incidence of childhood thyroid cancer and the local external dose due to the accident at the Fukushima Daiichi nuclear power, while the relationship between the two varied with method of dose calculation and statistics. Also there was no clear evidence that radiation exposure had a negative impact on children′s thyroid, and the increased incidence of thyroid cancer may be due to over-screening.