Adaptation of the hearing analyzer under vibration noise exposure in volunteers: Ways of prevention

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Abstract

BACKGROUND: The negative effect of impulse noise and vibration when using small arms on the auditory analyzer in athletes is less investigated and justifies the need for an extended study of volunteers with normal hearing. The study of the initial characteristics of the impulse noise and vibration effects of sports weapons on the auditory analyzer will make it possible to determine the early risk factors for the occurrence of high-frequency hearing loss in shooters by the number of shots from sports weapons and the recovery time of auditory function.

AIMS: To conduct a comparative analysis of the effect of impulse noise and vibration exposure depending on the technical characteristics of small arms on volunteers with normal hearing and, based on the results obtained, unify the methods of forecasting and prevention.

MATERIALS AND METHODS: At the Department of Otorhinolaryngology of the South Ural State Medical University of the Ministry of Health of Russia, 30 fifth-year students were examined following continuous recruitment of volunteers between September 2022 and November 2022. All interviewed participants gave voluntary written consent to participate in the survey and to the test level of impulse noise. Based on the current regulatory documents, all volunteers were surveyed and underwent audiological and vestibulometric studies, the technical characteristics of noise and vibration exposure as a risk factor for the early development of presbycusis were determined, and ways of preventing hearing loss through lifestyle were proposed.

RESULTS: The comparative analysis of the influence of impulse noise and vibration effects showed a dependence on the weight of the small arms cartridge, number of shots, and adaptation time of the auditory analyzer in volunteers with normal hearing considering the changes in the high-frequency spectrum of increasing audiometry thresholds from the average value of indicators.

CONCLUSIONS: The use of active explanatory propaganda among young people on a careful attitude to the physiological state of the cochleovestibular apparatus avoids the risk of early presbycusis development.

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About the authors

Musos Yu. Korkmazov

South Ural State Medical University

Email: Korkmazov74@gmail.com
ORCID iD: 0000-0002-8642-0166
SPIN-code: 5592-9007
Scopus Author ID: 57208244708

MD, Dr. Sci. (Med.), professor

Russian Federation, 64 Vorovskiy street, 454092, Chelyabinsk

Irina D. Dubinets

South Ural State Medical University

Email: 89124728166@mail.ru
ORCID iD: 0000-0002-7085-113X
SPIN-code: 1591-9548

MD, Cand. Sci. (Med.), associate professor

Russian Federation, 64 Vorovskiy street, 454092, Chelyabinsk

Maria A. Lengina

South Ural State Medical University

Email: Danilenko1910@mail.ru
ORCID iD: 0000-0002-8103-192X
SPIN-code: 9562-7956

MD, Сand. Sci. (Med.), associate professor

Russian Federation, 64 Vorovskiy street, 454092, Chelyabinsk

Arsen M. Korkmazov

South Ural State Medical University

Email: Korkmazov09@gmail.com
ORCID iD: 0000-0002-3981-9158
SPIN-code: 5456-8493

MD, Cand. Sci. (Med.), associate professor

Russian Federation, 64 Vorovskiy street, 454092, Chelyabinsk

Anastasia N. Koroleva

South Ural State Medical University

Email: n-03-99@mail.ru
ORCID iD: 0000-0002-5114-2194

student 

Russian Federation, 64 Vorovskiy street, 454092, Chelyabinsk

Kristina S. Fastakovskaya

South Ural State Medical University

Email: kristina.kuzina.2001@mail.ru
ORCID iD: 0000-0001-6404-7711

student 

Russian Federation, 64 Vorovskiy street, 454092, Chelyabinsk

Grigory D. Romanyugo

South Ural State Medical University

Email: gromanugo@gmail.com
ORCID iD: 0000-0003-2139-7505

student

Russian Federation, 64 Vorovskiy street, 454092, Chelyabinsk

Ali S. Bidzhiev

Pavlov University

Author for correspondence.
Email: Rexali789@gmail.com
ORCID iD: 0009-0004-1348-8567

student

Russian Federation, Saint Petersburg

References

  1. https://www.who.int/ru/ [Internet]. Po prognozam VOZ k 2050 g. narusheniyami slukha budet stradat’ kazhdyi chetvertyi zhitel’ planety [cited 2023 Feb 16]. Available from: https://www.who.int/ru/news/item/02-03-2021-who-1-in-4-people-projected-to-have-hearing-problems-by-2050 (In Russ).
  2. Korkmazov MYu, Korkmazov AM, Dubinets ID, et al. Features of the alterative effect of impulse noise on the auditory analyzer in athletes: prognosis, correction and prevention. Human. Sport. Medicine. 2021;21(2):189–200. (In Russ). doi: 10.14529/hsm210223
  3. Lengina MA, Dubinets ID, Korkmazov AM, et al. Mechanisms of vestibular disorders in skeet shooters, their detection and correction. Human. Sport. Medicine. 2021;21(1):156–168. (In Russ). doi: 10.14529/hsm210120
  4. Vojachek VI. Voennaja otolaringologija. Moscow: Medicina; 1946. (In Russ).
  5. Aleksandrov LN, Ivanov NI. Gistohimicheskie i gistologicheskie izmenenija v kortievom organe jeksperimental’nyh zhivotnyh pri dejstvii na nih impul’snyh shumov bol’shoj moshhnosti. Sbornik trudov LenNII po boleznjam uha, gorla, nosa i rechi. 1966;14: 206–214. (In Russ).
  6. Korkmazov MYu, Chernysh NN, Dubinets ID, et al. Acoustic alteration, hearing loss and their prevention Human. Sport. Medicine. 2022;22(2):180–190. (In Russ). doi: 10.14529/hsm220222
  7. Logatkin SM, Zolotashko MI, Tyrnov EP. K voprosu normirovanija sverhsil’nyh impul’snyh shumov. In: Problemy akusticheskoj jekologii. Ivanov NI, editor. Leningrad: Strojizdat; 1990. Pt 1. P. 28–33. (In Russ).
  8. Terent’ev LP. Gigienicheskaja ocenka sredstv individual’noj zashhity organa sluha pri vozdejstvii impul’snogo shuma. In: Aktual’nye problemy obshhej i voennoj gigieny: trudy Voenno-medicinskoj akademii. Leningrad; 1973. Vol. 193. P. 40–42. (In Russ).
  9. Korkmazov MYu, Korkmazov AM, Dubinets ID, et al. Influence of non-drug therapy on rehabilitation time and skeet shooting after rhinosurgical interventions. Human. Sport. Medicine. 2020; 20(S1):136–144. (In Russ). doi: 10.14529/hsm20s117
  10. Jurikov KE, Kuznecov MS. Harakteristika porazhenija sluha u voennosluzhashhih pri vozdejstvii shuma vysokoj intensivnosti s primeneniem metoda tonal’noj porogovoj audiometrii. In: Aktual’nye voprosy sovremennoj mediciny: materialy V Dal’nevostochnogo medicinskogo molodezhnogo foruma; 2021 Oct 01–15; Habarovsk, Russia. Habarovsk: Dal’nevostochnyj gosudarstvennyj medicinskij universitet; 2021. P. 277–279. (In Russ).
  11. Talibov AKh, Korkmazov MYu, Lengina MA, et al. Personalized approach to improving the quality of life and psychophysical readiness of weightlifters through the correction of sensory and vasomotor disorders of ENT organs. Human. Sport. Medicine. 2021;21(4):29–41. (In Russ). doi: 10.14529/hsm210404
  12. Palekhin MV, Zapevalin EV. Prevention of harmful effects of shooting. Journal of Volgograd State Medical University. 2010;(4): 105–107. (In Russ).
  13. Mel’nichenko PI. Vlijanie impul’snogo shuma na organizm cheloveka. Military Medical Journal. 1980;(12):44–46. (In Russ).
  14. Ryzhikov MA, Kuznetsov SM, Logatkin SM, et al. Hygienic characteristics of impulse noise during firearms shooting. Bulletin of the Russian Military Medical Academy. 2016;(1):149–153. (In Russ).
  15. Kryter KD. Exposure to steady-state noise and impairment of hearing. J Acous Soc Am. 1963;35(10):1515–1525. doi: 10.1121/1.1918740
  16. Boddington K, Ugarov A. Otdacha. Russkii okhotnichii zhurnal. 2018;(5):80–84. (In Russ).
  17. Adeninskaya EE, Bukhtiyarov IV, Daikhes NA, et al. Clinical recommendations. Hearing loss due to noise (project). Russian Journal of Occupational Health and Industrial Ecology. 2018;(2): 42–63. (In Russ).
  18. СН 2.2.4/2.1.8.562-96.2.2.4. Fizicheskie faktory proizvodstvennoi sredy. 2.1.8. Fizicheskie faktory okruzhayushchei prirodnoi sredy. Shum na rabochikh mestakh, v pomeshcheniyakh zhilykh, obshchestvennykh zdanii i na territorii zhiloi zastroiki. Sanitarnye normy: Approved by Resolution of the State Sanitary and Epidemiological Supervision of the Russian Federation № 36 of 31 October 1996. Available from: http://www.consultant.ru/document/cons_doc_LAW_103805/d49f07c84b35eb0084bbaa0e48a3d19c14640749/ (In Russ).
  19. Korkmazov MJu, Lengina MA. Neobhodimost’ dopolnitel’nyh metodov reabilitacii bol’nyh s kohleo-vestibuljarnoj disfunkciej. Bulletin of Otorhinolaryngology. 2012;(S5):76–77. (In Russ).
  20. Silkina AV, Nakatis YaA. The modern approach to the problem of noiseinduced hearing loss (literature review). Rossiiskaya otorinolaringologiya. 2016;(4):97–102. (In Russ). doi: 10.18692/1810-4800-2016-4-97-102
  21. Meeusen R, Duclos M, Foster C, et al. Prevention, diagnosis and treatment of the overtraining syndrome: joint consensus statement of the European College of Sport Science and the American College of Sports Medicine. Med Sci Sports Exerc. 2013;45(1):186–205. doi: 10.1249/MSS.0b013e318279a10a
  22. Bogdanov IV, Rychkova NA. Effect of emotional status and personality traits on physical preparedness in young people. Human. Sport. Medicine. 2019;19(1):80–85. (In Russ). doi: 10.14529/hsm190111
  23. Cesarani A, Alpini D, Monti B, et al. The treatment of acute vertigo. Neurol Sci. 2004;25 suppl. 1:S26–S30. doi: 10.1007/s10072-004-0213-8
  24. Korkmazov AM, Dubinec ID, Lengina MA. Vozmozhnosti topicheskoj antioksidantnoj zashhity operirovannyh polostej v prakticheskoj otorinolaringologii. Bulletin of Otorhinolaryngology. 2017;82(S5):14–15. (In Russ).
  25. Korkmazov MYu, Dubinets ID, Lengina MA, Solodovnic AV. Local concentrations of secretory immunoglobulin A in patients with adenoiditis, rhinosinusitis and exacerbation of chronic purulent otitis media when using physiatric methods in complex therapy. Russian Journal of Immunology. 2021;24(2):297–304. (In Russ). doi: 10.46235/1028-7221-999-LCO
  26. Gisinger OA, Korkmazov AM, Korkmazov MYu. The state of antimicrobial protection factors of nasal secretion in patients operated on the curvature of the nasal septum in the early postoperative period. Russian Journal of Immunology. 2017;11(2):117–119. (In Russ).
  27. Dubinets ID, Korkmazov MY, Sinitsky AI, et al. Changes in the elemental composition of the temporal bone in patients with chronic suppurative otitis media. Bulletin of Otorhinolaryngology. 2020;85(5):44–50. (In Russ). doi: 10.17116/otorino20208505144
  28. Dubinets ID, Korkmazov MYu, Sinitskii AI, et al. Local and systemic oxidative stress in chronic suppurative otitis media Medical Council. 2021;(18):148–156. (In Russ). doi: 10.21518/2079-701X-2021-18-148-156
  29. Korkmazov MYu, Lengina MA, Dubinets ID, et al. Opportunities for correction of individual links of the pathogenesis of allergic rhinitis and bronchial asthma with assessment of the quality of life of patients. Medical Council. 2022;16(4):24–34. (In Russ). doi: 10.21518/2079-701X-2022-16-4-24-34
  30. Knicker AJ, Renshaw I, Oldham AR, Cairns SP. Interactive processes link the multiple symptomsof fatigue in sport competition. Sports Med. 2011;41(4):307–328. doi: 10.2165/11586070-000000000-00000
  31. Korkmazov MYu, Solodovnik AV, Korkmazov AM, Lengina MA. Prospects for using herbal preparation in combination with physical methods in complex therapy of chronic adenoiditis. Medical Council. 2021;(18):19–27. (In Russ). doi: 10.21518/2079-701X-2021-18-19-27
  32. Korkmazov MYu, Dubinets ID, Lengina MA, et al. Distinct indexes of immunological reactivity in surgical alteration of ORL organs. Russian Journal of Immunology. 2022;25(2):201–206. (In Russ). doi: 10.46235/1028-7221-1121-DIO
  33. Thompson DM, Taylor J, Hall DA, et al. Patients’ and clinicians’ views of the psychological components of tinnitus treatment that could inform audiologists’ usual care: a delphi survey. Ear Hear. 2018;39(2):367–377. doi: 10.1097/AUD.0000000000000492
  34. Cleveland RO, Chitnis PV, McClure SR. Acoustic field of a ballistic shock wave therapy device. Ultrasound Med Biol. 2007;33(8): 1327–1335. doi: 10.1016/j.ultrasmedbio.2007.02.014
  35. Cho SY, Kwon O, Kim SC, et al. Understanding cavitation-related mechanism of therapeutic ultrasound in the field of urology: part I of therapeutic ultrasound in urology. Investig Clin Urol. 2022;63(4): 385–393. doi: 10.4111/icu.20220059
  36. Ikeda T, Yoshizawa S, Koizumi N, et al. Focused ultrasound and lithotripsy. Adv Exp Med Biol. 2016;880:113–129. doi: 10.1007/978-3-319-22536-4_7
  37. Lo KW, Ferguson BG. Localization of small arms fire using acoustic measurements of muzzle blast and/or ballistic shock wave arrivals. J Acoust Soc Am. 2012;132(5):2997–3017. doi: 10.1121/1.4757737
  38. Lo KW. A ballistic model-based method for ranging small arms fire using a single acoustic sensor node. J Acoust Soc Am. 2019;145(4):2409. doi: 10.1121/1.5098772
  39. Meinke DK, Finan DS, Soendergaard J, et al. Impulse noise generated by starter pistols. Int J Audiol. 2013;52 suppl. 1(0 1): S9–S19. doi: 10.3109/14992027.2012.745650
  40. Spankovich C, Griffiths SK, Lobariñas E, et al. Temporary threshold shift after impulse-noise during video game play: laboratory data. Int J Audiol. 2014;53 suppl. 2(0 2):S53–S65. doi: 10.3109/14992027.2013.865844
  41. Choi MJ, Kwon O. Temporal and spectral characteristics of the impulsive waves produced by a clinical ballistic shock wave therapy device. Ultrasonics. 2021;110:106238. doi: 10.1016/j.ultras.2020.106238
  42. Säljö A, Huang YL, Hansson HA. Impulse noise transiently increased the permeability of nerve and glial cell membranes, an effect accentuated by a recent brain injury. J Neurotrauma. 2003; 20(8):787–794. doi: 10.1089/089771503767870014
  43. Hårdemark HG, Ericsson N, Kotwica Z, et al. S-100 protein and neuron-specific enolase in CSF after experimental traumatic or focal ischemic brain damage. J Neurosurg. 1989;71(5 Pt 1):727–731. doi: 10.3171/jns.1989.71.5.0727

Supplementary files

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2. Fig. 1. Participants passed the hearing threshold with an excess of 5 dB over spontaneous noise in the frequency mode of the distortion product in the entire frequency range.

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3. Fig. 2. Participants did not pass the prevalence of hearing thresholds by 5 dB over spontaneous noise in the frequency mode of the distortion product in the frequency range of 1.5 and 2.1 kHz.

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