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STATISTICAL ANALYSIS OF NOISE EXPOSURE OF WORKERS IN THE UNDERGROUND MINING IN THE SOMA BASIN OF TURKEY

Yıl 2023, Cilt: 11 Sayı: 2, 449 - 458, 28.06.2023

Ayla Tekin Mustafa Oğuz Nalbant Mustafa Orhan Fırat Tekin Fatih Suvaydan Kemal Berki Sami Gümüş Aslı Aydın Savran

https://doi.org/10.21923/jesd.1158458
Cited By: 1

Öz

It is known that the problems created by noise cause numerous psychological, social, and various health consequences in many environments. One of the environments where noise exposure is observed most effectively is work areas. Recently, the number of studies on the effects of occupational noise exposure on worker performance and health has increased globally. In this study, it was aimed to determine the effect of exposure to noise on the cardiovascular system. The effects of the noise in the working environment of 100 workers who work or will work in the underground mining sector were examined. Physiological signals such as blood pressure, oxygen saturation, heart rate, respiratory rate, and electrical activity of individuals were measured. The obtained data were analyzed statistically. Our study statistically suggests that noise is a cardiovascular risk factor. It can be assumed that cardiovascular changes are related to noise levels and exposure time, and these effects may also be due to individual susceptibility. In conclusion, the results obtained from this study show the existence of cardiovascular problems in workers working in underground mines and the usefulness of cardiology screening for workers working in this sector.

Anahtar Kelimeler

Noise Effect Underground Mining Worker Health Statistical Analysis Cardiovascular Risks

Destekleyen Kurum

Manisa Celal Bayar Üniversitesi Bilimsel Araştırma Projeleri Koordinasyon Birimi

Proje Numarası

2019-083

Teşekkür

This study was supported by Manisa Celal Bayar University Scientific Research Projects Coordination Unit within the scope of project no 2019-083. In addition, the authors thank the volunteers who participated in this study and the industry Soma Imbat Mining and Energy Corporation and Soma Private Medigun Hospital for their support.

Kaynakça

  • Ahmed, S.S., Gadelmoula, A.M., 2022. Industrial noise monitoring using noise mapping technique: a case study on a concrete block-making factory. Int. J. Environ. Sci. Technol. 19, 851–862.
  • Alif, S.M., Sim, M.R., Ho, C., and Glass, D.C., 2022. Cancer and mortality in coal mine workers: a systematic review and meta-analysis, Occup. Environ. Med, 79(5), 347-357.
  • Aydin, Y., Kaltenbach, M., 2007. Noise perception heart rate and blood pressure in relation to aircraft noise in the vicinity of the Frankfurt airport. Clin Res Cardiol 96, 347–358.
  • Barakovic, F., Becarevic, M., Ljuca, F., Mujanovic, O. B., Beganlic, A., and Tulumovic, A, 2013. Depression and Cardiovascular Risk Factors in Pit Miners. Journal of the American College of Cardiology, 62(18S2), C7-C7.
  • Castelo B.N.A., Rodriguez, E., Alves P.M., and Jones D.R, 1999. Vibroacoustic disease: some forensic aspects. Aviat Space Environ Med, 70(3 Pt 2), A145–A151.
  • Capozzella A., Samperi I., De S.S., Tomei G., Casale T., Sacco C., Suppi A., Giubilati R., Tomei F., and Rosati M.V., 2015. Noise and cardiovascular affects in workers of the sanitary fixtures industry, Int J Hyg Environ Health, 218(1), 163-168.
  • Engin I.C., Ozkan E., and Cetin, S. 2019. Determination of Risky Areas at the Marble Workshops in Terms of Noise. Acoust Aust, 47, 79–90.
  • Elvira B., Teija K., Mari T., Paavo A., Luigi A., and Vincenzo M., 2005. Long-term exposure to occupational noise alters the cortical organization of sound processing, Clinical Neurophysiology, 116(1), 190-203.
  • Hansell A.L., Blangiardo M., Fortunato L., Floud S., Hoogh K., Fecht D., Ghosh R.E., Laszlo H.E., Pearson C., Beale L., Beevers S., Gulliver J., Best N., Richardson S., Elliott P., 2014. Aircraft noise and cardiovascular disease near Heathrow airport in London: small area study. BMJ Br. Med. J. 347.
  • Hrubá D., Lubomír K., and Mojmír T., 1999. Occupational risks for human reproduction: ELSPAC Study. European Longitudinal Study of Pregnancy and Childhood. Cent. Eur. J. Public Health, 7(4), 210-215.
  • Jamal A, Tanoli Q, Putus T, Savolainen H, and Liesivuori J., 2016. Noise induced hearing loss and its determinants in workers of an Automobile manufacturing unit in Karachi, Pakistan. Madridge J Otorhinolaryngol. 1(1), 1-11.
  • Jinjing K., Ming Z., Xiaowei L., Jiayu C., 2021. Monitoring distraction of construction workers caused by noise using a wearable Electroencephalography (EEG) device, Autom. Constr., 125(103598).
  • Kalantary S., Dehghani A., Yekaninejad M.S., Omidi L., and Rahimzadeh M., 2015. The effects of occupational noise on blood pressure and heart rate of workers in an automotive parts industry. ARYA Atheroscler. 11, 215–219.
  • Kashif N.S., and Hasnain S., 2010. Noise induced hypertension and prehypertension in Pakistan. Bosn. J. Basic Med. Sci., 10(3), 239-244.
  • Kavraz M. 2015. Gürültü Düzeylerinin İç Mekanlar Açısından Değerlendirilmesi - Ktü Kanuni Kampüsü Örneği. Mühendislik Bilimleri ve Tasarım Dergisi , 3 (3) , 597-601.
  • Kerns E., Masterson E.A., Themann C.L., Calvert G.M., 2018. Cardiovascular conditions, hearing difficulty, and occupational noise exposure within US industries and occupations. Am J Ind Med. 61: 477– 491.
  • Liu J., Zhu B., Xia Q., Ji X., Pan L., Bao Y., and Zhang R. 2020. The effects of occupational noise exposure on the cardiovascular system: A review. J. Public Health Emerg, 4.
  • Mancia G., Sega R., Milesi C., Cessna G., and Zanchetti, A. 1997. Blood-pressure control in the hypertensive population, Lancet, 349(9050), 454-457.
  • Nawaz, S. K., and Hasnain, S. 2010. Noise induced hypertension and prehypertension in Pakistan. Bosn. J. Basic Med. Sci., 10(3), 239–244.
  • Passchier V.W., and Wim F.P., 2000. Noise exposure and public health. Environ. Health Perspect., 108(1), 123-131.
  • Rathod S.B., Sorte S.R., and Patel S. 2021. The Effect of High Temperature on Cardiovascular Autonomic Function Tests in Steel Plant Furnace Worker. Indian J. Occup. Environ. Med., 25(2), 67–71.
  • Sensogut, C., Cinar, I., 2007. An empirical model for the noise propagation in open cast mines – A case study, Applied Acoustics, 68(9), 1026-1035.
  • Tao Z., Wang Y., Zou C., et al., 2019. Assessment of ventilation noise impact from metro depot with over-track platform structure on workers and nearby inhabitants. Environ Sci Pollut Res, 26, 9203–9218.
  • Tekin, A., Nalbant, M.O., Orhan, M., Tekin, F., Suvaydan, F., Berki, K., Gumus S., Savran, A.A. 2022. Statistical Analysis of Noise-induced Brain Electrical Activity of Employees in the Underground Mining Sector in the Soma Basin. Celal Bayar University Journal of Science, 2022, 18.3: 331-339.
  • Tekin, A., Nalbant, M.O., Orhan, M., Tekin, F., Suvaydan, F., Berki, K., Gumus S., Savran, A.A. 2022. Yeraltı Madenciliğinde Meydana Gelen Gürültü Şiddetinin İncelenmesi. Soma Meslek Yüksekokulu Teknik Bilimler Dergisi, 1(33), 16-23.
  • Thuthula, B., 2022. Reaching industry milestones on noise induced hearing loss in the South African Mining Industry, Saf Health Work., 13, 27.
  • Tomei G., Sancini A., Tomei F., Vitarelli A., Andreozzi G., Rinaldi G., Giorgio V., Samperi I., Fiaschetti M., Tasciotti Z., Cetica C., Capozzella A., Ciarrocca M., Caciari, T. 2013. Prevalence of systemic arterial hypertension, Ecg abnormalitiesand noise-induced hearing loss in agricultural workers. Int. Arch. Occup. Environ.Health 68(4), 196–203.
  • Varga J., Nagy I., Szirtes L., and Pórszász J. 2016. Physiological strain in the Hungarian mining industry: The impact of physicaland psychological factors. Int J Occup Med Environ Health, 29(4), 597-611.
  • Xingsong W., Oluseyi A.O., Dauda S.h. Ibrahim S.M.O., 2020. Evaluation of noise risk level and its consequences on technical operators of tobacco processing equipment in a cigarette producing company in Nigeria, Sci. Afr., 8.
  • You B., Wu C., Li J., and Liao H. 2014. Physiological responses of people in working faces of deep underground mines, Int J Min Sci Technol., 24(5), 683-688.
  • Zara A.S., Mogens E., Vivi S., Ioannis B., Jens P.B., Susan P., Jens B., Jesper M.V., and Henrik A.K, 2020. A Quantitative General Population Job Exposure Matrix for Occupational Noise Exposure, Ann. Work Expo. Health, 64(6), 604–613.
  • Zheng K.C., and Ariizumi, M. 2007. Modulations of Immune Functions and Oxidative Status Induced by Noise Stress. J. Occup. Health, 49, 32-38.

TÜRKİYE SOMA HAVZASINDA YERALTI MADEN İŞÇİLERİNİN MARUZ KALDIKLARI GÜRÜLTÜ ETKİLERİNİN İSTATİSTİKSEL ANALİZİ

Yıl 2023, Cilt: 11 Sayı: 2, 449 - 458, 28.06.2023

Ayla Tekin Mustafa Oğuz Nalbant Mustafa Orhan Fırat Tekin Fatih Suvaydan Kemal Berki Sami Gümüş Aslı Aydın Savran

https://doi.org/10.21923/jesd.1158458
Cited By: 1

Öz

Gürültünün yarattığı sorunların pek çok ortamda psikolojik, sosyal ve çeşitli sağlık sorunlarına yol açtığı bilinmektedir. Gürültü maruziyetinin en etkin şekilde gözlemlendiği ortamlardan biri de çalışma alanlarıdır. Son zamanlarda mesleki gürültüye maruz kalmanın işçi performansı ve sağlığı üzerindeki etkilerine ilişkin çalışmaların sayısı tüm dünyada artmıştır. Bu çalışmada gürültüye maruz kalmanın kardiyovasküler sistem üzerindeki etkisinin belirlenmesi amaçlanmıştır. Yeraltı madenciliği sektöründe çalışan veya çalışacak 100 işçinin çalışma ortamında maruz kaldıkları gürültünün etkileri incelenmiştir. Kişilerin kan basıncı, oksijen satürasyonu, nabızları, solunum hızları ve elektriksel aktiviteleri gibi fizyolojik sinyalleri ölçülmüştür. Elde edilen veriler istatistiksel olarak incelenmiştir. Çalışmanın istatistiksel olarak gürültünün kardiyovasküler bir risk faktörü olduğunu göstermektedir. Kardiyovasküler değişikliklerin gürültü seviyeleri ve maruz kalma süresi ile ilişkili olduğu ve bu etkilerin bireysel duyarlılıktan da kaynaklanabileceği varsayılabilir. Sonuç olarak, çalışmadan elde edilen sonuçlar, yeraltı madenlerinde çalışan işçilerde kardiyovasküler problemlerin varlığını ve bu sektörde çalışan işçiler için kardiyoloji taramasının yararlılığını göstermektedir.

Anahtar Kelimeler

Gürültü Etkisi Yeraltı Madenciliği İşçi Sağlığı İstatistiksel Analiz Kardiyovasküler Riskler

Proje Numarası

2019-083

Kaynakça

  • Ahmed, S.S., Gadelmoula, A.M., 2022. Industrial noise monitoring using noise mapping technique: a case study on a concrete block-making factory. Int. J. Environ. Sci. Technol. 19, 851–862.
  • Alif, S.M., Sim, M.R., Ho, C., and Glass, D.C., 2022. Cancer and mortality in coal mine workers: a systematic review and meta-analysis, Occup. Environ. Med, 79(5), 347-357.
  • Aydin, Y., Kaltenbach, M., 2007. Noise perception heart rate and blood pressure in relation to aircraft noise in the vicinity of the Frankfurt airport. Clin Res Cardiol 96, 347–358.
  • Barakovic, F., Becarevic, M., Ljuca, F., Mujanovic, O. B., Beganlic, A., and Tulumovic, A, 2013. Depression and Cardiovascular Risk Factors in Pit Miners. Journal of the American College of Cardiology, 62(18S2), C7-C7.
  • Castelo B.N.A., Rodriguez, E., Alves P.M., and Jones D.R, 1999. Vibroacoustic disease: some forensic aspects. Aviat Space Environ Med, 70(3 Pt 2), A145–A151.
  • Capozzella A., Samperi I., De S.S., Tomei G., Casale T., Sacco C., Suppi A., Giubilati R., Tomei F., and Rosati M.V., 2015. Noise and cardiovascular affects in workers of the sanitary fixtures industry, Int J Hyg Environ Health, 218(1), 163-168.
  • Engin I.C., Ozkan E., and Cetin, S. 2019. Determination of Risky Areas at the Marble Workshops in Terms of Noise. Acoust Aust, 47, 79–90.
  • Elvira B., Teija K., Mari T., Paavo A., Luigi A., and Vincenzo M., 2005. Long-term exposure to occupational noise alters the cortical organization of sound processing, Clinical Neurophysiology, 116(1), 190-203.
  • Hansell A.L., Blangiardo M., Fortunato L., Floud S., Hoogh K., Fecht D., Ghosh R.E., Laszlo H.E., Pearson C., Beale L., Beevers S., Gulliver J., Best N., Richardson S., Elliott P., 2014. Aircraft noise and cardiovascular disease near Heathrow airport in London: small area study. BMJ Br. Med. J. 347.
  • Hrubá D., Lubomír K., and Mojmír T., 1999. Occupational risks for human reproduction: ELSPAC Study. European Longitudinal Study of Pregnancy and Childhood. Cent. Eur. J. Public Health, 7(4), 210-215.
  • Jamal A, Tanoli Q, Putus T, Savolainen H, and Liesivuori J., 2016. Noise induced hearing loss and its determinants in workers of an Automobile manufacturing unit in Karachi, Pakistan. Madridge J Otorhinolaryngol. 1(1), 1-11.
  • Jinjing K., Ming Z., Xiaowei L., Jiayu C., 2021. Monitoring distraction of construction workers caused by noise using a wearable Electroencephalography (EEG) device, Autom. Constr., 125(103598).
  • Kalantary S., Dehghani A., Yekaninejad M.S., Omidi L., and Rahimzadeh M., 2015. The effects of occupational noise on blood pressure and heart rate of workers in an automotive parts industry. ARYA Atheroscler. 11, 215–219.
  • Kashif N.S., and Hasnain S., 2010. Noise induced hypertension and prehypertension in Pakistan. Bosn. J. Basic Med. Sci., 10(3), 239-244.
  • Kavraz M. 2015. Gürültü Düzeylerinin İç Mekanlar Açısından Değerlendirilmesi - Ktü Kanuni Kampüsü Örneği. Mühendislik Bilimleri ve Tasarım Dergisi , 3 (3) , 597-601.
  • Kerns E., Masterson E.A., Themann C.L., Calvert G.M., 2018. Cardiovascular conditions, hearing difficulty, and occupational noise exposure within US industries and occupations. Am J Ind Med. 61: 477– 491.
  • Liu J., Zhu B., Xia Q., Ji X., Pan L., Bao Y., and Zhang R. 2020. The effects of occupational noise exposure on the cardiovascular system: A review. J. Public Health Emerg, 4.
  • Mancia G., Sega R., Milesi C., Cessna G., and Zanchetti, A. 1997. Blood-pressure control in the hypertensive population, Lancet, 349(9050), 454-457.
  • Nawaz, S. K., and Hasnain, S. 2010. Noise induced hypertension and prehypertension in Pakistan. Bosn. J. Basic Med. Sci., 10(3), 239–244.
  • Passchier V.W., and Wim F.P., 2000. Noise exposure and public health. Environ. Health Perspect., 108(1), 123-131.
  • Rathod S.B., Sorte S.R., and Patel S. 2021. The Effect of High Temperature on Cardiovascular Autonomic Function Tests in Steel Plant Furnace Worker. Indian J. Occup. Environ. Med., 25(2), 67–71.
  • Sensogut, C., Cinar, I., 2007. An empirical model for the noise propagation in open cast mines – A case study, Applied Acoustics, 68(9), 1026-1035.
  • Tao Z., Wang Y., Zou C., et al., 2019. Assessment of ventilation noise impact from metro depot with over-track platform structure on workers and nearby inhabitants. Environ Sci Pollut Res, 26, 9203–9218.
  • Tekin, A., Nalbant, M.O., Orhan, M., Tekin, F., Suvaydan, F., Berki, K., Gumus S., Savran, A.A. 2022. Statistical Analysis of Noise-induced Brain Electrical Activity of Employees in the Underground Mining Sector in the Soma Basin. Celal Bayar University Journal of Science, 2022, 18.3: 331-339.
  • Tekin, A., Nalbant, M.O., Orhan, M., Tekin, F., Suvaydan, F., Berki, K., Gumus S., Savran, A.A. 2022. Yeraltı Madenciliğinde Meydana Gelen Gürültü Şiddetinin İncelenmesi. Soma Meslek Yüksekokulu Teknik Bilimler Dergisi, 1(33), 16-23.
  • Thuthula, B., 2022. Reaching industry milestones on noise induced hearing loss in the South African Mining Industry, Saf Health Work., 13, 27.
  • Tomei G., Sancini A., Tomei F., Vitarelli A., Andreozzi G., Rinaldi G., Giorgio V., Samperi I., Fiaschetti M., Tasciotti Z., Cetica C., Capozzella A., Ciarrocca M., Caciari, T. 2013. Prevalence of systemic arterial hypertension, Ecg abnormalitiesand noise-induced hearing loss in agricultural workers. Int. Arch. Occup. Environ.Health 68(4), 196–203.
  • Varga J., Nagy I., Szirtes L., and Pórszász J. 2016. Physiological strain in the Hungarian mining industry: The impact of physicaland psychological factors. Int J Occup Med Environ Health, 29(4), 597-611.
  • Xingsong W., Oluseyi A.O., Dauda S.h. Ibrahim S.M.O., 2020. Evaluation of noise risk level and its consequences on technical operators of tobacco processing equipment in a cigarette producing company in Nigeria, Sci. Afr., 8.
  • You B., Wu C., Li J., and Liao H. 2014. Physiological responses of people in working faces of deep underground mines, Int J Min Sci Technol., 24(5), 683-688.
  • Zara A.S., Mogens E., Vivi S., Ioannis B., Jens P.B., Susan P., Jens B., Jesper M.V., and Henrik A.K, 2020. A Quantitative General Population Job Exposure Matrix for Occupational Noise Exposure, Ann. Work Expo. Health, 64(6), 604–613.
  • Zheng K.C., and Ariizumi, M. 2007. Modulations of Immune Functions and Oxidative Status Induced by Noise Stress. J. Occup. Health, 49, 32-38.
Toplam 32 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Yer Bilimleri ve Jeoloji Mühendisliği (Diğer)
Bölüm Araştırma Makaleleri \ Research Articles
Yazarlar

Ayla Tekin 0000-0002-2547-0872

Mustafa Oğuz Nalbant 0000-0002-9311-2241

Mustafa Orhan 0000-0002-6337-1584

Fırat Tekin 0000-0001-7870-8453

Fatih Suvaydan 0000-0001-9236-5506

Kemal Berki 0000-0002-1340-4907

Sami Gümüş 0000-0001-5992-0889

Aslı Aydın Savran 0000-0002-8344-1287

Proje Numarası 2019-083
Yayımlanma Tarihi 28 Haziran 2023
Gönderilme Tarihi 5 Ağustos 2022
Kabul Tarihi 20 Aralık 2022
Yayımlandığı Sayı Yıl 2023 Cilt: 11 Sayı: 2

Kaynak Göster

APA Tekin, A., Nalbant, M. O., Orhan, M., Tekin, F., vd. (2023). STATISTICAL ANALYSIS OF NOISE EXPOSURE OF WORKERS IN THE UNDERGROUND MINING IN THE SOMA BASIN OF TURKEY. Mühendislik Bilimleri Ve Tasarım Dergisi, 11(2), 449-458. https://doi.org/10.21923/jesd.1158458

Cited By

PLC BASED SCADA SYSTEM DESIGN FOR INSTANT MONITORING AND EARLY WARNING MECHANISM OF TOXIC GASES IN UNDERGROUND MINES
Mühendislik Bilimleri ve Tasarım Dergisi
https://doi.org/10.21923/jesd.1407043
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