RELATIONSHIP ANALYSIS OF WHOLE BODY VIBRATION (WBV) WITH MUSCULOSKELETAL DISORDER (MSDS) COMPLAINTS ON HEAVY EQUIPMENT OPERATORS AT THE TRANS SU-MATRA TOLL ROAD CONSTRUCTION PROJECT AT PT. ADHI KARYA TBK

Authors

  • Citra Retya Kesuma Faculty of Public Health, Sriwijaya University, Palembang, Indonesia, Jalan Padang Selasa 524, Palembang, South Sumatra 30139, Indonesia
  • Tan Malaka Faculty of Medicine, Sriwijaya University, Palembang, Indonesia. Jalan Raya Palembang-Prabumulih km 32, In-dralaya, Indonesia
  • Rika Novrikasari Occupational Health Safety and Environmental Health Studies, Faculty of Public Health, Sriwijaya University, Palem-bang, Indonesia

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DOI:

https://doi.org/10.24233/BIOV.5.1.2019.134

Keywords:

Heavy Equipment Operators , Whole body Vibration , Musculoskeletal disorder complaints , Work-related

Abstract

The use of heavy equipment in the construction field is very helpful in the process of a project. Heavy equipment operators exposed to the Whole Body Vibration due to a machine that can be transmitted through a seat or on the floor. These vibrations at certain intensities can lead to Musculoskeletal Disorder. This study aimed to analyze the relationship of Whole Body Vibration with the occurrence of Musculoskeletal Disorder complaints on Heavy Equipment Operators. Methods this study used cross sectional design, with a measuring instrument in the form of an accelerometer type 100A svantek and a Nordic Body Map questionnaire. The research sample was 45 operators with heavy equipment consisting of excavators, bulldozers, motorgrade, vibro compactors and dump trucks. WBV data retrieval is done when the operator works,, the tool is placed in the seat where the operator sits. Results of the study can be obtained through exposure to WBV based on ISO 2631: 1 15 heavy equipment operators (33.3%) were in the low WBV exposure category, while 30 operators (66.6%) in the Moderate and High category. Parts of the body which can be categorized as belonging to Work-related is part of Lower Back 99.35% (P Value 0.043; NK_R2 0.304) with BMI (OR 0.925) as the confounding variable. It can be concluded that the complaints Musculoskeletal Disorder (MSDs) in the Lower back may come from the presence of vibration exposure Whole Body Vibration generated from his job as a heavy equipment operator. Advised the company's management can reduce complaint rates by reducing operator exposure received.Keywords: Secondary metabolites, Trichoderma harzianum, Colletotrichum capsici, tannin

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References

Arikunto, S. 2006. Prosedur Penelitian Suatu Pendekatan Praktik Ed. V. Jakarta: Rineka Cipta.

Allegri M.2016. Mechanisms of Low Back Pain: A Guide For Diagnosis and Therapy. NCBI. vol 5, Number 1000, pp: 1-11.

Bernard, BP. 1997. Musculoskeletal Disorders and Workplace Factors: A Critical Review of Epidemiologic Evidence For Work Related Musculoskeletal Disorders of the Neck, Upper Extremity, and Low Back. Cincinnati OH : Department of Health and Human Services, NIOSH.

BLS (Bureau of Labour Statistics). Musculoskeletal Disorders and Days Away from Work in 2007.

Bovenzi, M. 2009. Metrics of whole body vibration and exposure-­response relationship for low back pain in professional drivers: a prospective cohort study. Int Arch Occup Environ Health. vol 82, no 7, pp: 893–917.

Boschman 2012. Musculoskeletal Disorders among construction worker : a one-year follow-up study. BMC Musculoskeletal Disorders BioMed Central.Amsterdam, Netherlands.

Carlos, M, C. Lucero, H, J. 2012. Risk Assessment Of The Job Tasks For Heavy Equipment Operators. Philippines. School of Industrial Engineering, Mapua Institute Of Technology, Manila, Philippines.

Chaffin D.B and Anderson G.B.J. 1991. Occupational Biomechanic. New York: John Wiley and Sons,INC.

Chaffin, D. B., Delleman, N. J. & Haslegrave, C. M. 2004. Working Postures and Movements Tools for Evaluation and Engineering. USA: CRC Press.

Cindyastira, Dimi, Syamsiar S. Russeng, dan Andi Wahyuni. 2014. Intensitas Getaran Dengan Keluhan Muskuloskeletal Disorders (MSDs). Jurnal MKMI. pp: 234-240. Makassar: Sulawesi Selatan.

Departemen Kesehatan RI. 2003. Petunjuk Teknis Pemantauan Status Gizi Orang Dewasa dengan Indeks Massa Tubuh (IMT). Jakarta: Depkes RI.

Departemen Tenaga Kerja dan Transmigrasi Republik Indonesia.2016. Peraturan Menteri Tenaga Kerja dan Transmigrasi RI No : PER/09/MEN/VII/2018 tentang Operator & petugas pesawat angkat dan angkut. Depnakertrans.Jakarta.

Departemen Kesehatan RI. 2016. Peraturan Mentri Kesehatan Republik Indonesia Nomor 70 Tahun 2016 tentang Standart dan persyaratan Kesehatan lingkungan kerja Industri. Jakarta : Depkes RI.

Dharma, A,A. 2008. Hubungan Getaran Sekuruh Tubuh (WBV) dengan gejala Gastrointestinal (Dispepsia) dan Upaya penanggulangan pada pekerja penjual (selesman) dan pendukung ( Helper) PT X Bottling Indonesia. Tesis. Postgraduate North Sumatra University.

Emkani, M.2016. Exposure to whole body vibration in heavy mine vehicle drivers and its association with upper limbs musculoskeletal disorders. Journal of Occupational Health and Epidemiology 5.1.

Foli, V, A. Asangbah, 2006. F. Assesment of Musculoskeletal Disoerder among Heavy equipment operators at the Ghana Ports and Harbours authority, Tema. Ghana: School Of Public Health College Of Health Sciences University Of Ghana, Legon.

Hadyan, M. 2015. Faktor - faktor yang Mempengaruhi Kejadian Low Back Pain pada Pengemudi Transportasi Publik. vol. 4, no 7.

Haikal, dan Sofyan Musyabiq Wijaya. 2018. Risiko Low Back Pain (LBP) pada Pekerja dengan Paparan Whole Body Vibration (WBV). J Agromedicine. Volume 5, Nomor 1. Lampung : Universitas Lampung.

Hanifati S. Pajanan. 2014. Whole Body Vibration dan Risiko Low Back Pain pada Supir. Journal UI. vol 2, no 3, pp: 83-179.

Health and Safety Executive (HSE). 2014. HSE Annual Statistics Report for Great Britain. http:// www.hse.gov.uk/statistics/.

International Organization for Standardization.1985. ISO 2631-1. Evaluation of Human Exposure to Whole Body Vibration. Part 1 : General requirement 1-17, ISO, Geneva.

International Organization for Standardization.1997. ISO 2631-1. Mechanical Vibration and shock-evaluation of human exposure to Whole Body Vibration Part 1 : General Requirement. 1-3, ISO, Geneva.

Karwowski, W. Marras, W,S. Principles and Applications in Engineering series : Occupational Ergonomic. Design and Management of work sistem. CRC Press

Kementerian Kesehatan RI. 2013. Riset Kesehatan Dasar (Riskesdas) . Jakarta: Badan Penelitian dan Pengembangan Kesehatan.

Khaksar, Zeinab, Hojjat Ahmadi, and Seyed Saeid Mohtasebi. 2013. Whole body vibration analysis of tractor operators using power spectral density. Journal of Mechanical Engineering and Technology 1.1: 6-12.

Kittusamy NK, Buchholz B, “ Whole Body Vibration and postural Stress among operator of construction equipment : A Literature review “

Kuljit, S, G.2012. Effect of Whole Body Vibratio on vehicle operator: A review. Recearch Scholar, Produstion Engineering Department, PEC University of Technology, Chandigard. India.

Laboratorium PT. Chemviro Buana Indonesia.2016. Instruksi Kerja Alat Pengujian Nomor : IKAP-05. “ Svantex 100 A ( Whole Body Vibration ).

Laboratorium PT.Chemviro Buana Indonesia. 2016. instruksi kerja metode : IKP-05. “Pengujian Percepatan Getaran Seluruh Tubuh Pada Sikap Kerja Duduk”.

Madhushanka J.G.N., De Silva G.H.M.J.S., dan De Silve G.S.Y. 2015.Investigation on Whole Body Vibration exposure of operator of constructin Vehicles. Departemen of Civil and environmental Enggineering, university of Ruhuna. 6th International conference on structural engineering and construstion management 2015 Kandy, Sri Langka.

Malaka, Tan. 2017. Industrial Hygiene. Pelatihan HIMU. Palembang.

Mandal, Bibhuti B., and Veena D. Manwar. 2017. Prevalence of musculoskeletal disorders among heavy earth moving machinery operators exposed to whole-body vibration in opencast mining. International Journal Of Community Medicine And Public Health 4.5 (2017): page 1566-1572.

Mc Phee, B. Foster, G. Long.2009. A. Bad Vibration: A Handbook on Whole Body Vibration exposure in minning. Essensial guide to identify, assess ang control vibration risk. Second edition. Australia.

Miller, L. Gariepy, C. 2008. Heavy Mobile Equipment-Ergonomic and the prevention of Musculoskeletal Injuries. Canada. Paper presented at the BC mines conference, Vancouver, Canada.

OSHA. 2007. Introduction to work-Related Musculoskeletal Disorder. European Agency for safety and health at work.

Onawumi, LE. 2012. The Prevalence of Work-Related Musculoskeletal Disorder Among Occupational Taxicabs Drivers in Nigeria. IJRRAS. vol 11, no 3, pp: 561-567.

Rehn B review journal,. Musculoskeletal Disorder and Whole Body Vibration Exposure“, among profesional driver of all terrain vehicle

[Phd-Thesis]. Departemen of Public Health and Clinical Medicine, Occupational Medicine, Umea University, Umae, Sweden. 2004.

Robb MJ, Mansfield NJ. 2007. Self-reported musculoskeletal problem amongs professional truck drivers. Ergonomic.

Tiemessen, IJH.2008. Occupational Whole-Body Vibration and Low Back Pain Strategies to Reduce Exposure. Netherland : Gildeprint.

Vitharana, V. H. P., GHMJ Subashi De Silva, and G. S. Y. De Silva.2014. "Whole Body Vibration Exposures of Workers in Construction Sites in Sri'Lanka." Proceedings of the 4th Annual Sessions of the Society of Structural Engineers, Sri Lanka. pp. 17-24.

Watson R. 2016. Anatomi dan Fisiologi Untuk Perawat, Edisi Ke-10. Jakarta : EGC.

Wilson, John R. Corlett, E.N.1995. Evaluation of Human Work, 2nd Edition. CRC Press.

Wigg, A.2003. The Effect of Whole Body Vibration on Height [Disertasi]. Adelaide : University of South Australia.

Yantri, Priscalia Denni.2017. Getaran Seluruh Tubuh (Whole Body Vibration) dan Keluhan Nyeri Punggung Bawah pada Operator Alat Berat di Instansi Pemerintah Kabupaten Jember. Jember : FKM, Universitas Jember.

Published

30-05-2019

How to Cite
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Kesuma, C. R., Malaka, T., & Novrikasari, R. (2019). RELATIONSHIP ANALYSIS OF WHOLE BODY VIBRATION (WBV) WITH MUSCULOSKELETAL DISORDER (MSDS) COMPLAINTS ON HEAVY EQUIPMENT OPERATORS AT THE TRANS SU-MATRA TOLL ROAD CONSTRUCTION PROJECT AT PT. ADHI KARYA TBK. BIOVALENTIA: Biological Research Journal, 5(1), 14–19. https://doi.org/10.24233/BIOV.5.1.2019.134

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Section

Vol 5, No 1 (2019): May 2019