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Objective To analyze the factors influencing the levels of occupational exposure in medical radiation workers in China, and to provide a scientific basis for determining the key points of radiation protection in the medical sector. Methods The individual monitoring data on occupational external exposure in medical radiation workers in 2021 were collected from the “National Individual Dose Registry”. The Chi-squared test and logistic regression were used to analyze the factors influencing the levels of occupational exposure in medical radiation workers. Results The Chi-squared test showed that gender, occupational category, medical institution category, region, number of radiation workers per thousand population, and regional per capita GDP were significantly associated with occupational exposure in medical radiation workers exceeding the annual effective dose of 5 mSv and an annual effective dose limit of 20 mSv (χ2 = 21.456−262.329, 7.601−78.650, P < 0.05). The logistic regression analysis further showed that gender, occupational category, region, and number of radiation workers per thousand population were factors influencing the occupational exposure in medical radiation workers exceeding the annual effective dose of 5 mSv (χ2 = 14.621−170.857, P < 0.05); gender, occupational category, region, and regional per capita GDP were factors influencing the occupational exposure in medical radiation workers exceeding the annual effective dose of 20 mSv (χ2 = 5.401−48.709, P < 0.05). Conclusion Male radiation workers in interventional radiology and in central China have high risks of exceeding annual effective doses of 5 and 20 mSv. Moreover, high number of radiation workers per thousand population and regional per capita GDP are associated with low risks. Medical institutions should maintain a sufficient number of radiation workers and strengthen training on radiation protection knowledge for male and interventional radiology workers to enhance their radiation protection awareness. Investigation of the factors contributing to the high occupational exposure in central China should be intensified, and targeted effective measures should be conducted to reduce the occupational exposure in medical radiation workers.
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Objective To establish a model for estimating the eye lens dose of the first operator in interventional therapy based on the Monte Carlo simulation, and to provide a scientific basis for the rapid and accurate evaluation of the eye lens dose for radiation workers in interventional therapy. Methods Based on the MIRD phantom and eye model for adult Chinese males, the MCNPX program was used to establish the physical model to calculate the spatial distribution of radiation field and eye lens dose for the first operator. A GR200 Type A LiF (Mg, Cu, P) thermoluminescence dosimeter was used for experimental measurement to verify the simulation results. Results Monte Carlo simulation and experimental measurements showed that the spatial distribution of radiation field was symmetrical. Compared with the measured doses, the errors of the simulated eye lens dose of the first operator were between −8.3% and 7.3%. The dose of the left eye lens was higher than that of the right eye. Conclusion The Monte Carlo model constructed in this study initially realizes the simulation of eye lens dose of the first operator in interventional therapy. In the future, the model will be further optimized based on irradiation parameters such as exposure time, tube voltage, tube current, and projection direction used in clinic practice, so as to more accurately evaluate the eye lens dose of interventional therapy staff.
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Objective:To explore artificial intelligence technology and propose an algorithm for automatic identification of dicentric chromosomes to realize fast and high-throughput biodosimetry. In order to solve the time-consuming and laborious problem of manual analysis of dicentric chromosomes.Methods:Combining artificial intelligence technology and image processing technology, based on MATLAB software, algorithms like image preprocessing, threshold segmentation algorithm, binarization processing, area identification algorithm, convolutional neural network algorithm and double centripetal recognition algorithm were applied. A fuzzy membership function was defined to describe the degree of each chromosome belonging to a dicentric chromosome, and the discrimination threshold was set to realize the automatic identification of dicentric chromosomes.Results:Through the test on 1 471 chromosome images, compared with manual recognition, the detection rate of dicentric chromosomes cells of this algorithm reached 70.7%.Conclusions:This algorithm method carries out a preliminary study on the automatic identification of dicentric chromosomes with good result.
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Objective To propose a computer recognition algorithm for solid nuclear track images based on the machine learning method, and to realize the automatic, fast and accurate recognition of nuclear tracks and improve the efficiency of solid track image analysis. Methods Firstly, 143 images containing tracks were scanned by morphological method to determine the location of suspected tracks, and 1250 material images were captured. 50% of the material were selected as the training set and 30% as the validation set for training the machine learning model. Another 20% of the material were selected as the test set for testing the model recognition result. The algorithm code was written and trained based on the MATLAB software. Results The established solid track recognition algorithm had a strong recognition capability, and the recognition accuracy of the test set could reach 84.8%. The machine learning model program constructed by the algorithm could evolve continuously with the input of training data, further improving the accuracy. Conclusion Based on image morphology and machine learning, the track recognition algorithm was investigated, by which the automatic recognition of solid tracks was better realized. In the future, we will increase the data input of the model, optimize the algorithm, and improve the recognition accuracy, in order to provide a more accurate and efficient method for automatic image track recognition.
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The high-energy particles from the sun and from outside the solar system and then enter the Earth′s atmosphere and interact with the nuclei of atmospheric constituents, leading to secondary cosmic rays, which are the main radiation source to aircrew. Routine individual monitoring or dose estimation for aircrew is necessary because of the high level exposure to radiation. However, dose monitoring for aircrew is not a simple task due to the complex components of cosmic ray radiation field. To protect occupational health of aircrew, it is important to seek appropriate dose monitoring method and to be aware of cosmic radiation level. This review gives an overview of dose monitoring method, dose calculation method, and dose levels of occupational exposure of aicrew from cosmic rays, in order to provide new input for strengthening dose monitoring and health management of aircrew in China.
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Objective:To analyze the distribution of radiodiagnosis resources in China and provide data support for further optimizing the allocation of radiodiagnosis resources and improving the weaknesses in radiation protection.Methods:The survey was carried out in accordance with the unified plan and using questionnaires of the national medical radiation protection monitoring program issued from 2017 to 2019. The survey included all medical institutions performing radiodiagnosis in China. The survey indicators included distribution of medical institutions performing radiodiagnosis, number of equipment, number of radiation workers and other information, the allocation of radiation protection equipment and the frequency of radiodiagnosis. The survey was performed using questionnaire survey and reported through the national medical radiation protection monitoring information system. In terms of the organization code, the name of the organizations excludes those repeatedly reported. The original data was exported in the form of excel table from the database for the purpose of statistical analysis.Results:By the end of 2019, except Xinjiang Production and Construction Corps, Hong Kong, Macao and Taiwan regions and military systems, there were 68 924 diagnostic radiology medical institutions in China, 147 913 diagnostic radiology equipment, accounting for 91.7% of the total pieces of nationwide diagnostic radioprotective equipment. There are 367 201 radiologists in China, accounting for 76.1% of 406 830 radiologists in all medical institutions, with high allocation rate of radiation protection equipment. However, the allocation rate in first-class hospitals was the lowest among all levels of hospitals. The piece of protection equipment was increased with the grade of hospital. From perspective of of economic development level, the highest was found in the eastern region, with the lowest in the central and northeast region, both of which are about 90%.Conclusions:The current status of radiodiagnosis and protection was ascertained basically through this three-year round of survey, with a large number of survey data accumulated. This survey provides data support for the development of relevant protection policies and standards at national and provincial levels. Survey data indicated that there are still nearly 1 000 direct fluorescent screen fluoroscopy machines in use in China. Relevant policies and standards should be established to gradually phase out the equipment with serious radiation hazards.
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Objective:To understand and analyze the levels of individual dose to medical radiation workers from occupational external exposure in Inner Mongolia autonomous region from 2015 to 2019, with a view to provide basic scientific data for workers′ health protection and radiation protection management.Methods:By using National Individual Dose Registry, the individual dose monitoring result and other related data for medical workers were collected and analyzed.Results:The average annual individual doses to medical radiation workers in a time order from 2015 to 2019 were 0.72, 0.87, 0.88, 0.71 and 0.64 mSv, respectively. There were significant differences in the annual effective dose distribution in diagnostic radiology, dental radiology, nuclear medicine, radiotherapy, interventional radiology and other applications ( H=466.56, P<0.05). The average annual effective doses to workers in interventional radiology and nuclear medicine had not shown significant difference ( P>0.05), but significantly higher than those in other occupational categories ( Z=19.95, 9.87, 10.10, 12.76, P<0.05). Conclusions:The average annual effective dose to medical radiation workers is in accordance with the relevant national standards. The dose values for the radiation workers involved in interventional radiology and nuclear medicine are relatively high, especially for interventional radiology workers and radioactive drug operators. The protection measures should be further improved in radiation protection workplace.
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Objective:To investigate the levels of dose to eye lens of interventional radiology workers in China from 2017 to 2019.Methods:The monitoring data on eye lens doses to the interventional radiology workers in 28 provinces across the country were collected from National Individual Dose Registry. Monitoring was carried out using TLDs on their left eyes and evaluated in terms of the personal dose equivalent Hp(3). By using Mann-Whitney U test and Kruskal-Wallis H test, statistical analyses were made of the average annual lens doses to interventional radiology workers in the hospitals of different types at different levels for different years. Results:From 2017 to 2019, the data on eye lens doses to 2 981 interventional radiology workers were collected, with doses ranging from below the minimum detectable level (MDL) to 64.48 mSv, the average annual eye dose of 1.38 mSv, and the annual doses incurred by 0.97% monitored workers exceeding the recently recommended dose limits, 20 mSv per year. The average annual lens dose monitored in general hospitals and in cancer hospitals were 1.33 and 1.77 mSv, respectively, without statistically significant difference ( P>0.05). The average annual lens dose in tertiary hospitals was 1.39 mSv, significantly higher than that in secondary hospitals where the value was 1.16 mSv ( Z=2.894, P<0.05). Conclusions:The estimated annual eye lens doses to the interventional radiology workers during 2017-2019 were in accordance with the current national standard GB 18871-2002, but with a few exceptions exceeding the current international standards. This means that there exists, to a certain degree, a potential risk for the eye lens in this work category to exceed the international limits. It is suggested to continue in effort to enhance the monitoring of eye lens dose for these workers and to increase risk awareness, and take effective protective measures so as to lower the level of eye lens doses.
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Objective:To ascertain the levels of individual doses to radiation workers arising from occupationally external exposure in China in 2017, with an aim to provide basic data and scientific basis for prevention and control of occupational radiation sickness.Methods:Data on individual doses to monitored workers engaged in medical and industrial applications of radiation sources were collected through National Individual Dose Registry, with statistical analysis being carried out using Kruskal-Wallis H test, Mann-Whitney U test and Bonferroni method. Results:A total of 361 727 radiation workers were investigated in 2017, of which 81.6% was from medical application and 18.4% from industrial application, respectively. The average annual effective dose from medical and industrial applications were 0.353 and 0.270 mSv, respectively, with the former significantly higher than the latter ( Z=48.547, P<0.05). Furthermore, a statistically significant difference was seen in the average annual effective dose for each occupational category of medical application ( H=1 136.217, P<0.05), suggesting that the dose values for the monitored workers in nuclear medicine and interventional radiology were significantly higher than for other four medical categories ( Z=2.877-26.967, P<0.05). These dose values for the radiation workers was 0.361 mSv in tertiary hospitals, 0.397 mSv in secondary hospitals, and 0.308 mSv in primary and unrated hospitals, respectively. The dose values for the monitored workers in industrial radiography and well logging were significantly higher than for other five industrial categories of industrial applications ( Z=4.172-36.908, P<0.05). Conclusions:The average annual effective doses to the of monitored workers meet the relevant national standards. The exposure doses to the workers in nuclear medicine, interventional radiology, industrial radiography and well logging are relatively high. The necessary measures and devices for radiation protection should be further strengthened to reduce occupational exposure of workers.
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Objective To design and build a set of experimental equipment for neutron radiation irradiation by using the 241Am-Be neutron source. Methods In the preliminary work, the spatial distribution data of the neutron energy spectrum and the gamma energy spectrum inside and outside the device were simulated by Monte Carlo method, and the changes of radiation fluence rate with spatial distribution was studied. The model of the 241Am-Be neutron device was established, and the neutron transport process in the irradiation field was studied using the method of shadow cone, inverse square law and other data analysis methods. Results Based on the simulation results, the normalized effective does of fast neutron fluence at the measurement point is about 72.9 pSv/n, and the one of photon fluence is about 3.04 pSv/γ. The ratio of effective dose of photon fluence to neuteon is about 4.17%. Conclusion Using Monte Carlo method, a standard model of 241Am-Be neutron source was constructed, the shadow cone design was optimized, and the feasibility of using the shadow cone conversion method to establish a standard neutron source radiation device was discussed.
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Objective@#To develop occupational radiation disease and occupational health monitoring system for radiation workers in order to identify the current status of occupational health management of radiation workers in China.@*Methods@#In compliance with the relevant laws, regulations and standards in China, the system design was completed according to wide variety of needs.@*Results@#An occupational health monitoring system for radiation workers was initially established. The system consisted of four modules and three levels of users to make sure.@*Conclusions@#Through the collection of data, some key risk points existing in radiology diagnosis and treatment have been identified in relation to occupational radiation disease, so as to provide scientific basis for health administrative department to carry out decision-making and revision of laws and regulations.
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Objective@#To construct a national medical radiation protection monitoring information system (NMRPMIS) based on the national radiation health information platform, support the national medical radiation protection monitoring project data reporting, and comprehensively understand the current situation of medical radiation protection.@*Methods@#According to the national radiation protection monitoring plan, laws, regulations and standards, HTML, CSS and JavaScript were used in the front end, JAVA language was used in the back end, SQL server was used in the platform database and Tomcat was used as the middleware. A data reporting and analysis system was set in the system through B/S structure, with statistical analysis of the 2017 annual monitoring data carried out.@*Results@#The business composition of the platform includes four levels: data acquisition (through various business systems), data resource integration (integration of business system public data), application, and display. The national medical radiation protection monitoring system with flexible structure, centralized information and convenient operation was implemented. The national medical radiation protection information was reported in 2017. The basic situation of radiation protection in 33 565 hospitals and the performance and protection information of 10 624 pieces of radiation diagnosis and treatment equipment were reported in 2017. A total of 95 statistical information reports were completed, describing the current situation of medical radiation protection in China from four dimensions: time, administrative geographic information, hospital level, and equipment types.@*Conclusions@#Medical radiation protection monitoring system helped achieve the design goal and successfully complete the data reporting in 2017. It provides data support for understanding the current situation of medical radiation protection and the protection management policymaking in China.
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Objective@#To establish a nationwide food radionuclides monitoring network to improve the national food radionuclides monitoring efficiency.@*Methods@#The system includes a nationwide food radionuclides monitoring information system based on the existing National Radiation Health Information Platform. The system consists mainly of information filling, data review, retrieval query, graphic report and data export.@*Results@#Since 2016, a network submission method was used for the first time in the national food radioactive material risk monitoring. The system improved the timeliness and validity of data reporting and provided a more effective means than before for the normative management and scientific application of data.@*Conclusions@#The national food radionuclides monitoring network was successfully constructed and in use. The system has provided a good information support for monitoring the food radionuclide levels in China.
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Objective@#To construct a national radiological health information platform, in order to collect and analyze radiological health monitoring and survey data, so as to improve data utilization and ensuring technology support to radiological health.@*Methods@#In accordance with China′s relevant laws, regulations and regulations, a national radiological health information platform was designed, developed and operated in response to the needs of radiological health monitoring, scientific research and management.@*Results@#The system was initially established in 2015, consisting of five business modules: medical radiation protection, personal dose, occupational health, food radioactivity monitoring and occupational radiological disease reporting. In the past 4 years, the system has been running normally and 5 business databases have been established. More than 8 million data of monitoring and survey have been collected. More than 1 400 terminal users have good experiences and frequent interactions.@*Conclusions@#The successful construction of the national radiological health information platform not only promotes and standardizes the network direct reporting of radiological health monitoring and investigation business data, but also provides analytical and utilization tools for technical institutions/personnel on radiological health, and gradually becomes an important scientific basis and database for the development of radiological health laws, regulations and standards in China as well as for national health service.
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Objective To analyze 20 indicators for the evaluation of medical radiation protection monitoring in 31 provinces,municipalities or autonomous regions in 2017 and provide technical support and reference for further optimization of medical radiation protection monitoring projects.Methods According to " medical radiation protection monitoring assessment score sheet for medical and health institutions",a full range of analysis and evaluation was carried out of medical radiation protection monitoring and implementation at nationwide medical and health institutions by using fuzzy combined method of TOPSIS and rank sum ratio.Results TOPSIS method and rank sum ratio weighted fuzzy joint analysis showed that the top three indicators,in descending order,were management of provincial implementation plans,management of project leaders in various cities and management of funds whereas the lowest three indicators were completion of radiotherapy equipment commissioning,innovation and highlights and tcoverage of radiotherapy equipment.Conclusions The fuzzy combined application of TOPSIS method and rank sum ratio method can provide the comprehensive quantitative result for the implementation of medical radiation protection monitoring in 2017,objectively evaluate the implementation of various indicators,summarize the highlights and bottlenecks of work in 2017,and provide technical support and reference for further optimization of medical radiation protection monitoring.
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Objective@#To understand and analyze the individual dose level of occupational external exposure of industrial workers in China from 2009 to 2013, and to provide basic data and scientific basis for radiation protection and radiation protection management.@*Methods@#Since January 2009, the individual dose monitoring data of industrial workers were collected through the "National radiological health information platform-individual dose monitoring system". The methods of Kruskal-Wallis test and the Mann-Whitney test were used for statistical analysis of monitoring results for different occupational categories from 2009 to 2013.@*Results@#From 2009 to 2013, a total of 151, 541 people were monitored for the number of industrial radioactive workers, showing a steady upward trend year by year. The average annual effective doses was 1.179 mSv/a. The average annual effective dose of industrial flaw detection, industrial irradiation, luminescent coatings, radioisotope production, logging, accelerator operation and other applications were 0.808, 1.429, 0.315, 1.074, 0.766, 0.576, and 1.510 mSv/a. There was a statistically significant difference in the average annual effective dose between the seven occupational categories (P<0.05) . The average annual effective doses of other application and industrial irradiation workers in 2013 were significantly higher than other occupational categories (P<0.05) .@*Conclusion@#The average annual effective dose of industrial radiation workers meet the requirements of national standards. The exposure doses of industrial radiation and other application radiation workers are relatively high. The radiation protection workplace protection measures should be further improved and improved, and radiation protection knowledge training should be strengthened to protect their occupational health.
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Objective To develop occupational radiation disease and occupational health monitoring system for radiation workers in order to identify the current status of occupational health management of radiation workers in China. Methods In compliance with the relevant laws, regulations and standards in China, the system design was completed according to wide variety of needs. Results An occupational health monitoring system for radiation workers was initially established. The system consisted of four modules and three levels of users to make sure. Conclusions Through the collection of data, some key risk points existing in radiology diagnosis and treatment have been identified in relation to occupational radiation disease, so as to provide scientific basis for health administrative department to carry out decision-making and revision of laws and regulations.
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Objective To construct a national medical radiation protection monitoring information system (NMRPMIS) based on the national radiation health information platform, support the national medical radiation protection monitoring project data reporting, and comprehensively understand the current situation of medical radiation protection. Methods According to the national radiation protection monitoring plan, laws, regulations and standards, HTML, CSS and JavaScript were used in the front end, JAVA language was used in the back end, SQL server was used in the platform database and Tomcat was used as the middleware. A data reporting and analysis system was set in the system through B/ S structure, with statistical analysis of the 2017 annual monitoring data carried out. Results The business composition of the platform includes four levels: data acquisition ( through various business systems), data resource integration (integration of business system public data), application, and display. The national medical radiation protection monitoring system with flexible structure, centralized information and convenient operation was implemented. The national medical radiation protection information was reported in 2017. The basic situation of radiation protection in 33565 hospitals and the performance and protection information of 10624 pieces of radiation diagnosis and treatment equipment were reported in 2017. A total of 95 statistical information reports were completed, describing the current situation of medical radiation protection in China from four dimensions: time, administrative geographic information, hospital level, and equipment types. Conclusions Medical radiation protection monitoring system helped achieve the design goal and successfully complete the data reporting in 2017. It provides data support for understanding the current situation of medical radiation protection and the protection management policymaking in China.
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Objective To establish a nationwide food radionuclides monitoring network to improve the national food radionuclides monitoring efficiency. Methods The system includes a nationwide food radionuclides monitoring information system based on the existing National Radiation Health Information Platform. The system consists mainly of information filling, data review, retrieval query, graphic report and data export. Results Since 2016, a network submission method was used for the first time in the national food radioactive material risk monitoring. The system improved the timeliness and validity of data reporting and provided a more effective means than before for the normative management and scientific application of data. Conclusions The national food radionuclides monitoring network was successfully constructed and in use. The system has provided a good information support for monitoring the food radionuclide levels in China.
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Objective To construct a national radiological health information platform, in order to collect and analyze radiological health monitoring and survey data, so as to improve data utilization and ensuring technology support to radiological health. Methods In accordance with China′s relevant laws, regulations and regulations, a national radiological health information platform was designed, developed and operated in response to the needs of radiological health monitoring, scientific research and management. Results The system was initially established in 2015, consisting of five business modules: medical radiation protection, personal dose, occupational health, food radioactivity monitoring and occupational radiological disease reporting. In the past 4 years, the system has been running normally and 5 business databases have been established. More than 8 million data of monitoring and survey have been collected. More than 1400 terminal users have good experiences and frequent interactions. Conclusions The successful construction of the national radiological health information platform not only promotes and standardizes the network direct reporting of radiological health monitoring and investigation business data, but also provides analytical and utilization tools for technical institutions/ personnel on radiological health, and gradually becomes an important scientific basis and database for the development of radiological health laws, regulations and standards in China as well as for national health service.