Determination of Safe Concentration of Non-Carcinogenic Toluene in Surabaya Printing
Ahmad Rido'i Yuda Prayogi(1*), Dr. Abdul Rohim Tualeka(2), Dr. Ahsan Ahsan(3), Dr. Pudji Rahmawati(4), Dr. Syamsiar S Russeng(5), Indri H Susilowati(6)
(1) Department of Occupational Health and Safety, Public Health Faculty, Airlangga University, 60115, Surabaya, East Java, Indonesia
(2) Department of Occupational Health and Safety, Public Health Faculty, Airlangga University, 60115, Surabaya, East Java, Indonesia
(3) Faculty of Nurse, Brawijaya University, Malang, Indonesia
(4) Department of Development of Islamic Society, State Islamic University Sunan Ampel, Surabaya, Indonesia;
(5) Department of Occupational Health and Safety, Faculty of Public Health, Hassanudin University, Makassar, Indonesia
(6) Public Health Faculty, University of Indonesia, Depok,
(*) Corresponding Author
Abstract
Aims: The research objective is to determine the safe concentration of non-carcinogenic toluene in Surabaya printing. Methods and Material: The research design used was observational analytic, cross sectional research design with a quantitative approach. The research location is a printing press in Surabaya. Total population was 37 workers, the study sample was taken using the accidental sampling method with a total sample of 30 respondents. The formula for determining the concentration of toluene non carcinogen intake is (CxRxtExfExDt): (Wbx30x365). Results: The concentration value of toluene exposure is greater than the standard set by labor regulations No. 5 of 2018 by 0.2 ppm. A total of 10% of workers falls under normal category, 73% above normal category and 27% below normal category. Conclusions: The concentration of toluene exposure in Surabaya printing area is above normal with a concentration of 0.2 ppm and this is considered normal.
Keywords
References
Al-Ghamdi, S. S., Raftery, M. J. and Yaqoob, M. M. (2003) ‘Organic Solvent-Induced Proximal Tubular Cell Toxicity via Caspase-3 Activation’, Journal of Toxicology - Clinical Toxicology, 41(7), pp. 941–945. doi: 10.1081/CLT-120026515. 2. FADHILA, P., Soebijanto, P. D. dr. and Dr. dr. Ismail Setyopranoto, S. S. (2015) KEJADIAN NEUROPATI SARAF TEPI PADA PEKERJA PERCETAKAN OFSET YANG TERPAJAN TOLUEN INHALASI. Universitas Gajah Mada. Available at: http://etd.repository.ugm.ac.id/penelitian/detail/92262. 3. Fahrudhi, H. (2017) ‘Risiko Menderita Kanker Dan Non Kanker Pada Pekerja Terpapar Benzena Di Home Industrysepatu Kelurahan Tambak Oso Wilangun Surabaya’, The Indonesian Journal of Occupational Safety and Health, 6(1), p. 68. doi: 10.20473/ijosh.v6i1.2017.68-77. 4. Febriantika, D. ; S. B. (2017) ‘ANALISIS RISISKO KESEHATAN PAJANAN BENZENA DI INDUSTRI PERCETAKAN X KOTA SEMARANG’, Jurnal Kesehatan Masyarakat, 5(1), pp. 430–437. doi: 10.1017/CBO9781107415324.004. 5. Gammon, M. D. and Santella, R. M. (2008) ‘PAH, genetic susceptibility and breast cancer risk: An update from the Long Island Breast Cancer Study Project’, European Journal of Cancer, 44(5), pp. 636–640. doi: 10.1016/j.ejca.2008.01.026. 6. Indrawan, D. (2014) ‘Pertamina Ru Iv Cilacap Btx Exposure Analysis Against Workers in Pt . Pertamina Ru Iv Cilacap’, Jurnal Teknik Lingkungan, 20(2), pp. 132–141. 7. Irmasari, F. (2018) ‘Kadar Toluen di Udara Lingkungan Kerja Berkorelasi terhadap Kadar Asam Hipurat Urine pada Pekerja Percetakan di Rungkut Surabaya’, Jurnal Kesehatan Lingkungan, 10(2018), pp. 328–335. Available at: https://e-journal.unair.ac.id/JKL/article/view/7239/5782. 8. Lee, C. R. et al. (2005) ‘Neurobehavioral changes of shipyard painters exposed to mixed organic solvents’, Industrial Health, 43(2), pp. 320–326. doi: 10.2486/indhealth.43.320. 9. Marganda, S., Ashar, T. and Nurmaini, N. (2018) ‘The Effect of Toluene Exposure on Central Nervous Disorder among Printing Workers’, Indonesian Journal of Medicine, 3(3), pp. 125–133. doi: 10.26911/theijmed.2018.03.03.01. 10. Maryiantari, E. S. and Murtiana, P. T. (2016) RISK ASSESSMENT PAJANAN TOLUENA PADA PEKERJA PENGRAJIN SEPATU DI KELURAHAN TAMBAK OSO WILANGUN SURABAYA. Universitas Airlangga. Available at: http://repository.unair.ac.id/id/eprint/29494. 11. Nakhooda, F., Sartorius, B. and Govender, S. M. (2019) ‘The effects of combined exposure of solvents and noise on auditory function – a systematic review and meta-analysis’, South African Journal of Communication Disorders, 66(1), pp. 1–11. doi: 10.4102/sajcd.v66i1.568. 12. Parekh, A. K. et al. (2011) ‘Managing multiple chronic conditions: A strategic framework for improving health outcomes and quality of life’, Public Health Reports, 126(4), pp. 460–471. doi: 10.1177/003335491112600403. 13. Phanprasit, W. et al. (2019) ‘Inhalation and dermal exposure to toluene among printing workers in a plastic bag factory’, Journal of Health Research, 33(1), pp. 68–79. doi: 10.1108/JHR-06-2018-0031. 14. Prihartini, N. (2010) ‘ANALISIS RISIKO KESEHATAN PAJANAN TOLUEN PADA PEKERJA BENGKEL SEPATU “X” DI KAWASAN PERKAMPUNGAN INDUSTRI KECIL (PIK) PULOGADUNG JAKARTA TIMUR TAHUN 2010’. Available at: http://lib.ui.ac.id/file?file=digital/20303214-T 30822-Analisis risiko-full text.pdf. 15. Smith, M. T. (2010) ‘Advances in understanding benzene health effects and susceptibility’, Annual Review of Public Health, 31, pp. 133–148. doi: 10.1146/annurev.publhealth.012809.103646. 16. Tualeka, A. R. et al. (2019) ‘Requirement prediction for toluene detox with foods intake rich in CYP2E1 enzyme and glycine to prevent nerve and kidney damage at shoe home industry workers in romokalisari surabaya’, Open Access Macedonian Journal of Medical Sciences, 7(11), pp. 1788–1793. doi: 10.3889/oamjms.2019.356. 17. Tualeka, A. R., Tri, M. and Jalaluddin, J. (2019) ‘Analisis risiko pajanan benzena Risk assessment, risk management, and risk communication’. Surabaya: Dinas Perpustakaan Dan Kearsipan Provinsi Jawa Timur, p. 114. Available at: http://disperpusip.jatimprov.go.id/inlis/opac/detail-opac/index?id=88755. 18. Tunsaringkarn et al. (2012) ‘Occupational Exposure of Gasoline Station Workers to BTEX Compounds in Bangkok, Thailand’, International journal of occupational and environmental medicine, pp. 117–126. 19. U.S.Environmental Protection Agency (2005) ‘Toxicological review of Toluene’, (108), p. 179. 20. Valcke, M., Nong, A. and Krishnan, K. (2012) ‘Modeling the human kinetic adjustment factor for inhaled volatile organic chemicals: Whole population approach versus distinct subpopulation approach’, Journal of Toxicology, 14(4), pp. 1–14. doi: 10.1155/2012/404329. 21. Williams, R. and Wilbur, S. (2015) ‘ATSDR - Toxicological Profile: Toluene’. United State: Department of Health and Human Services, Public Health Service. Available at: http://www.atsdr.cdc.gov/toxprofiles/tp.asp?id=161&tid=29. 22. Wispriyono, B. and Handoyo, E. (2016) ‘Risiko Kesehatan Pajanan Benzena, Toluena Dan Xylena Petugas Pintu Tol’, Jurnal Kesehatan Masyarakat, 11(2), p. 188. doi: 10.15294/kemas.v11i2.3935. 23. Zuhro, R., Tualeka, A. R. and Harsetianingrum, R. A. (2018) ‘Determination of the safe duration of benzene non-carcinogenic exposure in motor workshop area’, Indian Journal of Public Health Research and Development, 9(11), pp. 582–586. doi: 10.5958/0976-5506.2018.01520.6.
DOI: https://doi.org/10.22146/bkm.58654
Article Metrics
Abstract views : 990Refbacks
- There are currently no refbacks.
Copyright (c) 2021 Berita Kedokteran Masyarakat
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.
Berita Kedokteran Masyarakat ISSN 0215-1936 (PRINT), ISSN: 2614-8412 (ONLINE).