On the need and possibility of reducing the impact of noise in order to minimize injuries at airlines

Summary data on injuries in Russia and at civil aviation enterprises over the years of the current century are presented. Continuous reduction in injury rates has been shown. Significant actual factors of the working environment that contribute to occupational injuries have been statistically identified, one of the main ones being noisy workplaces. Exposure to noise has a negative impact on hearing and the functional state of the central nervous system thus reducing performance, leading to errors, and contributing to injuries. The possibility to counter the noise effects by otoprotection with an argon-oxygen gas mixture has been experimentally confirmed.

1. Adeninskaya E. E., Bukhtiyarov I. V., Bushmanov A. Y. [et al.] (2016). Federal clinical guidelines for the diagnosis, treatment and prevention of hearing loss caused by noise. Occupational medicine and industrial Ecology. 3: 37-48. (in Russian)

2. Cemalovic N., Rosic S., Toromanovic N. (2016). Analysis of the causes of occupational injuries and application of preventive measures. Materia Socio Medica. 28(1): 51-52. DOI 10.5455/msm.2016.28.51-52.

3. Gamzaev V. R. (2022). Features of occupational safety and health of flight attendants of Pobeda, Rossiya and S7 Airlines XXI century: results of the past and problems of the present plus. 2(58): 169-175. (in Russian)

4. Khudyakov Yu. G., Nikolaikin N. I., Andrusov V. E. (2017). Managing the hazards of the industrial environment. Moscow: Prospekt, 2017. 128 p. (in Russian)

5. Kontareva V. Y., Belik S. N. (2023). Analysis of industrial injuries in the agricultural sector XXI century: results of the past and problems of the present plus. 4(64): 250-258. (in Russian)

6. Lokteva O. S., Loktev A. A. (2020). Zero injury and the possibility of achieving it in the transport industry Science and technology of transport. (2): 87-93. (in Russian)

7. Lukyanchikova, T. L., Yamshchikova T. N., Kletsova N. V. (2018). Comparative analysis of occupational injuries: Russia and the world Labor economics. 5(3): 647-662. (in Russian)

8. Luria A. R. (1962). Higher human cortical functions and their disorders in local brain damage. Moscow: Publishing House of Moscow State University, 375 p. (in Russian)

9. Melnikov B. N., Bolshunov Yu. A., Nikolaikin N. I. (2020). Prospects for the creation of low-noise civil aviation aircraft. Safety in the technosphere. 2: 32-37. (in Russian)

10. Nair S. G. (2019). Argon: the future organ protectant? Annals of Cardiac Anaesthesia. 22(2):111-112.

11. Nikolaikin N. I., Khudyakov Yu. G. (2013). Methodology for assessing the impact of working conditions of airline personnel on risks in air transport processes. Scientific Bulletin of MSTU GA. (197): 115-119. (in Russian)

12. Overture: The World’s Fastest Airliner. Boom - Supersonic Passenger Airlines Available at: https://boomsupersonic.com (accessed 15 January 2024).

13. Passenger turnover: passenger turnover by types of public transport. Rosstat – Transport. Available at: https://rosstat.gov.ru/statistics/transport (accessed 6 September 2023). (in Russian)

14. Putin proposed to create a civilian version of the Tu-160. (2018) Business Aviation Portal ATO.ru: News. Available at: http://www.ato.ru/content/putin-predlozhil-sozdat-grazhdanskuyu-versiyu-tu-160 (accessed 15 January 2024).

15. Qi H., Zhang J., Shang Y. [et al.] (2021). Argon inhibits reactive oxygen species oxidative stress via the miR-21-mediated PDCD4/PTEN pathway to prevent myocardial ischemia/reperfusion injury. Bioengineered. 12(1): 5529–5539.

16. Roehl A., Rossaint R., Coburn M. (2020). Update of the organoprotective properties of xenon and argon: from bench to beside. Intensive Care Medicine Experimental. (8): 11.

17. Savary G., Lidouren F., Rambaud J. [et al.] (2018). Argon attenuates multiorgan failure following experimental aortic cross-clamping. British Journal of Clinical Pharmacology. 84(6): 1170–1179.

18. Shapkin V., Pukhov A. (2022). Modern factors in the creation of a supersonic civil aircraft of a new generation. Aviasoyuz. 3/4(90): 4-9. (in Russian)

19. Sharov V. D., Vorobyov V. V., Zatuchny D. A. (2021) Concept of risk and safety: analysis of aviation safety regulations. Probabilistic-Statistical Methods for Risk Assessment in Civil Aviation: 1-33.

20. Sigaleva E. E., Marchenko L. Yu., Pasekova O. B. [et al.] (2023). The prospect of using the method of breathing with a normoxic oxygen-argon gas mixture for the purpose of noise otoprotection. Aviation, environmental and space medicine. 57(2): 65-73.

21. Sigaleva E. E., Pasekova O. B., Degterenkova N. V. [et al.]. (2023). "Non-auditory" effects of noise on the human body. Human Physiology. 49(6):76-83. (in Russian)

22. Soldatov S. K., Zinkin V. N., Bogomolov A.V., Kukushkin Yu. A. (2012). Man and aviation noise. Life safety. (S9): 1-24. (in Russian)

23. Somova Yu. V., Limarev A. S., Larina A. A. (2022). Research of the human factor in the human - technical system - production system in order to improve labor safety. XXI century: results of the past and problems of the present plus. 11-4(60): 165-171. (in Russian)

24. Starostina N. N., Sviridova T. V. (2021). Study of the causes of accidents and the possibility of using motivation to improve occupational safety. XXI century: resumes of the past and challenges of the present plus. 10-1(53): 203-208.

25. The FAVT R&D plan for 2020 and for the planning period 2021 and 2022. Order of the Federal Air Transport Agency dated 12/22/2020 No. 1584-P (2020) Available at: https://rulaws.ru/acts/Prikaz-Rosaviatsii-ot-22.12.2020-N-1584-P/ (accessed 6 September 2023). (in Russian)

26. The results of monitoring labor conditions and safety in the Russian Federation in 2020. Ministry of Labor of the Russian Federation (2020). Available at: https://eisot.rosmintrud.ru/monitoring-uslovij-okhrany-truda (accessed 6 September 2023).

27. The results of monitoring labor conditions and safety in the Russian Federation in 2021. Ministry of Labor of the Russian Federation (2021). Available at: https://eisot.rosmintrud.ru/attachments/article/47/monitoring-2021.pdf (accessed 6 September 2023).

28. Vadulina N. V., Gallyamov M. A., Devyatova S. M. (2020). Occupational morbidity in Russia: problems and solutions. Safety of technogenic and natural systems. (3): 7-15. (in Russian)

29. Vikhrov S. V. (2024). Occupational safety management system: effective processes and procedures Materials of the KIOUT webinar on March 29, 2024. Available at: https://youtube.com/watch?v=CcLH883bWus (accessed 29 March 2024) (in Russian)

30. Working conditions, industrial injuries (for certain types of economic activity): industrial injuries Available at: https://rosstat.gov.ru/working_conditions (accessed 6 September 2023).