The current state of working conditions in coal mines of Russia
Abstract: Introduction. In 2021, the largest proportion of workers in the Russian Federation with class 3.1 and higher1 was at coal mining enterprises (79.1%), in coal mines this figure reached 90.4%, which determines the high level of occupational morbidity of miners — more than 150–200 times higher than the average in Russia2. The study aims to conduct a comprehensive analysis of the working conditions of employees of operating coal mines in Russia according to the data of the Federal State Statistics Service in… Show more
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Priority directions for preserving the health of underground coal mining workers
Introduction. An increase in life expectancy, a decrease in the mortality rate of the working-age population and an extension of working longevity are the most important components in the development of the human potential of the Russian Federation. We observe the most unfavorable situation with the achievement of the above-mentioned targets in coal mining. The study aims to substantiate the priority directions for preserving the health of workers engaged in underground coal mining in modern production conditions based on an assessment of occupational risks to prolong their working longevity. Materials and methods. The authors have carried out the analysis of official statistics data (state reports of Rospotrebnadzor and the annual report of Rosstat) for 2021–2022 on the state of working conditions and occupational morbidity in the coal industry. We have summarized the materials of Rosugleprof for 2006–2022 on occupational morbidity in coal industry organizations. We have presented the data of epidemiological studies in a cohort of coal miners on the example of the Rostov region. Results. The authors note the largest proportion of cases of occupational pathology among employees of mining enterprises — 40.3%. The most at risk are: sinkers (10.2% of all newly identified cases of occupational diseases in 2022), miners of the treatment face (6.5%), excavator drivers (4.5%). In the structure of occupational morbidity of miners, the leading place is occupied by radiculopathy — 27.0%; sensorineural hearing loss — 22.9%; vibration disease — 22.0%; respiratory diseases (occupational bronchitis, pneumoconiosis, COPD) — more than 15.5%. In a cohort of miners with an established diagnosis of occupational diseases, it was shown that the standardized relative risk (SRR) of death from diseases of the circulatory system was 1.55 times significantly higher compared with the control population. Mortality from malignant neoplasms in miners was 44% higher than mortality in the population (SRR=1.44). At the same time, the death rate from the subclass malignant neoplasms of the respiratory system was 2.02 (95% CI 1.85–2.20), and from malignant neoplasms of the bronchi and lungs 2.24 (95% CI 2.04–2.46). The risk of death from respiratory diseases in the cohort of miners was more than 2 times higher than the population indicator (SRR=2.18). A significantly higher frequency of deaths from this class of diseases indicates a causal relationship with dust loads. The prevalence of coronary heart disease (CHD) among coal mine workers is higher than among the unorganized population of large cities and other groups of industrial workers. Conclusion. Scientists have recorded the most unfavorable working conditions in underground coal mining, which is due to the technologies used and production conditions. The prevention of diseases among miners requires the creation of health groups and the improvement of medical examination methods. Development of an integrated information system for health monitoring and personalized preventive and rehabilitation measures. To solve this problem, it is necessary to study working conditions, scientifically substantiate preventive measures, harmonize special assessment of working conditions and develop criteria for severity and intensity of work, as well as improve the technology for assessing working conditions and personalized risk assessment. Ethics. The study did not require the conclusion of the Ethics committee.
Priority directions for preserving the health of underground coal mining workers
Introduction. An increase in life expectancy, a decrease in the mortality rate of the working-age population and an extension of working longevity are the most important components in the development of the human potential of the Russian Federation. We observe the most unfavorable situation with the achievement of the above-mentioned targets in coal mining. The study aims to substantiate the priority directions for preserving the health of workers engaged in underground coal mining in modern production conditions based on an assessment of occupational risks to prolong their working longevity. Materials and methods. The authors have carried out the analysis of official statistics data (state reports of Rospotrebnadzor and the annual report of Rosstat) for 2021–2022 on the state of working conditions and occupational morbidity in the coal industry. We have summarized the materials of Rosugleprof for 2006–2022 on occupational morbidity in coal industry organizations. We have presented the data of epidemiological studies in a cohort of coal miners on the example of the Rostov region. Results. The authors note the largest proportion of cases of occupational pathology among employees of mining enterprises — 40.3%. The most at risk are: sinkers (10.2% of all newly identified cases of occupational diseases in 2022), miners of the treatment face (6.5%), excavator drivers (4.5%). In the structure of occupational morbidity of miners, the leading place is occupied by radiculopathy — 27.0%; sensorineural hearing loss — 22.9%; vibration disease — 22.0%; respiratory diseases (occupational bronchitis, pneumoconiosis, COPD) — more than 15.5%. In a cohort of miners with an established diagnosis of occupational diseases, it was shown that the standardized relative risk (SRR) of death from diseases of the circulatory system was 1.55 times significantly higher compared with the control population. Mortality from malignant neoplasms in miners was 44% higher than mortality in the population (SRR=1.44). At the same time, the death rate from the subclass malignant neoplasms of the respiratory system was 2.02 (95% CI 1.85–2.20), and from malignant neoplasms of the bronchi and lungs 2.24 (95% CI 2.04–2.46). The risk of death from respiratory diseases in the cohort of miners was more than 2 times higher than the population indicator (SRR=2.18). A significantly higher frequency of deaths from this class of diseases indicates a causal relationship with dust loads. The prevalence of coronary heart disease (CHD) among coal mine workers is higher than among the unorganized population of large cities and other groups of industrial workers. Conclusion. Scientists have recorded the most unfavorable working conditions in underground coal mining, which is due to the technologies used and production conditions. The prevention of diseases among miners requires the creation of health groups and the improvement of medical examination methods. Development of an integrated information system for health monitoring and personalized preventive and rehabilitation measures. To solve this problem, it is necessary to study working conditions, scientifically substantiate preventive measures, harmonize special assessment of working conditions and develop criteria for severity and intensity of work, as well as improve the technology for assessing working conditions and personalized risk assessment. Ethics. The study did not require the conclusion of the Ethics committee.
Features of occupational diseases caused by fibrogenic aerosols at enterprises in the Arctic
Introduction. Industrial dust aerosols with a predominantly fibrogenic effect remain an important risk factor for the health of the working population in the Arctic. The study aims to explore the features of the development, structure and prevalence of occupational diseases caused by fibrogenic aerosols at enterprises in the Arctic. Materials and methods. The authors have studied the archival data of the socio-hygienic monitoring "Working conditions and occupational morbidity" and the register of extracts from occupational disease records (Order of the Ministry of Health of the Russian Federation No. 176 dated 05/28/2001). Results. At enterprises in the Arctic in 2007–2021, fibrogenic aerosols ranked ninth (4.8%) in terms of the number of exposed workers, and fifth among harmful production factors in terms of the number of occupational diseases caused by their action (491 cases or 9.1%). They were characterized by the formation of employees of coal enterprises (83.1%), dominance in the structure of the pathology of chronic bronchitis (87.7%), etiological association with weakly fibrogenic aerosols (94.3%). The risk of diseases from exposure to fibrogenic aerosols in miners was higher than in metallurgical workers (RR=12.9; 95% CI 9.63–17.26; p<0.001), construction (RR=11.7; 95% CI 10.78–19.11; p<0.0001) and transport (RR=31.3; 95% CI 10.11–77.19; p<0.001) enterprises. For 15 years, researchers have observed a decrease in the number of diseases caused by the action of fibrogenic aerosols, and the risk of their development in 2007–2009 was higher than in 2019–2021: RR=2.10; 95% CI 1.19–3.71; p=0.009. Conclusion. In the prevention of occupational pathology from the effects of fibrogenic aerosols, the priority remains to improve dust suppression methods and respiratory protection equipment for sinkers, miners of the treatment face, machinists of mining machines and other specialists of coal mining enterprises in the Arctic
Hygienic assessment of the protective properties of personal hand protection equipment during vibration testing
Introduction. In industrial environments, at the workplaces of hand tool operators, it is not always possible to completely eliminate increased levels of vibration exposure. The power and speed characteristics of modern hand-held machines are constantly increasing. The impact of local vibration on a person has a negative effect on his body. When working with hand tools, personal protective equipment is used. The purpose of personal hand protection against vibration is to reduce the vibration impact on a person. Materials and methods. Bench tests were carried out on hand protection products consisting of damping materials of various shapes and locations in the product. The vibration sensor was installed and fastened in places where the operator’s hands came into contact with vibration and on the forearm. The effectiveness of protection was determined by the difference in measurement levels. Results. During the tests, vibration levels were recorded on the handle of the vibration stand, the palmar surface, the fingers, and the operator’s forearm. In the low-frequency region of the spectrum, vibration attenuation is minimal, and as the frequency range increases, the attenuation increases. Across all areas of the spectrum, performance levels for mittens are higher than for gloves. In places where the fingers come into contact with vibration, the efficiency is less than when in contact with the hand, and in the low-frequency region of the spectrum a negative efficiency of up to 0.8 dB is noted. Vibration measurements on the operator’s forearm showed vibration levels in the forearm to be lower than in the hand. Limitations. The study was conducted over a period of one year, in laboratory conditions, and was limited to two thousand measurements. Conclusion. Hygienic assessment of the effectiveness of the protective properties of personal protective equipment for hands was carried out in accordance with developed laboratory test methods when installing and securing a vibration sensor on the handle, hand, and forearm of the operator. Determining the effectiveness of the entire product model should be considered when designing and manufacturing new hand protection against vibration.
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