Debu merupakan partikel kecil dengan diameter berukuran <100 µm yang merupakan salah satu faktor risiko penyakit sistem pernapasan. Gangguan sistem pernapasan yang dipengaruhi oleh debu, seperti gangguan pernapasan akut dan pernapasan kronis yaitu gangguan fungsi paru baik obstruktif maupun restriktif. Gangguan fungsi paru terkait dengan pekerjaan adalah masalah kesehatan umum dan salah satu penyebab keterbatasan pada pekerja. Tujuan Scoping review ini adalah mengetahui efek debu terhadap penurunan fungsi paru dan jenis debu yang mempengaruhi penurunan fungsi paru berdasar atas artikel penelitian pada jurnal 10 tahun terakhir pada database Pubmed dan Springer Link. Metode penelitian dilakukan dengan mengumpulkan data penelitian 10 tahun terakhir mengenai efek debu terhadap fungsi paru pekerja, sebanyak 3.883 artikel telah disaring berdasar atas kriteria inklusi menjadi sebanyak 166 artikel, kemudian kriteria eksklusi yang memenuhi kriteria kelayakan melalui PICOS dan artikel duplikasi sebanyak 31 artikel disajikan dalam diagram PRISMA. Hasil Scoping review terdapat 26 jurnal yang menyebutkan debu mempengaruhi penurunan fungsi paru dan terdapat 5 artikel yang menyatakan tidak memengaruhi penurunan fungsi paru. Debu memengaruhi fungsi paru disebabkan oleh tingkat pajanan yang tinggi,  durasi pajanan yang kronis, dan ukuran partikel debu yang respirable.

Scoping Review: Effect of Dust on Workers' Lung Function

Dust is a small particle is a small particle with a diameter <100 µm which is a risk factor for respiratory system diseases. One of the respiratory system diseases that affected by dust is pulmonary function disorders, both obstructive and restrictive. Work-related pulmonary dyfunction is a common health problem in the worker environment and one of the causes of worker limitation. The purpose of this scoping review is to determine the effect of dust on decreased lung function and the type of dust that affect lung function decline based in research articles from Pubmed and Springer link databases in the last 10 years. The research method was carried out by collecting data from the research data of the last 10 years regarding the effect of dust on worker’s lung function, 3,883 articles were filtered based on the inclusion criteria into 166 articles, then the exclusion criteria that met the eligibility criteria through PICOS and duplicated article were 31 articles, presented in the PRISMA diagram. The results of this scoping review contained 26 articles which stated that dust affected the decline in lung function and there were 5 articles that stated dust did not affect the decline in lung function. Dust affect lung function due to high exposure levels, duration of chronic exposure and the size of dust which is respirable dust.

WHO. Airborne dust.[Internet]. Available from: https://www.who.int/news-room/air-pollution

Haworth N, Hughes S. The International Labour Organization. Handbook of Institutional Approaches to International Business. 2012. 204–218 p.

Singh D, Agusti A, Anzueto A, Barnes PJ, Bourbeau J, Celli BR, et al. Global Strategy for the Diagnosis, Management, and Prevention of Chronic Obstructive Lung Disease: the GOLD science committee report 2019. Eur Respir J. 2019;53(5).

Uyainah A. Spirometri.Ina J Chest Crit and Emerg Med. 2014:1;35-38

Yulaekah S, Adi MS. Pajanan Debu Terhirup dan Gangguan Fungsi Paru Pada Pekerja Industri Batu Kapur ( Studi Di Desa Mrisi Kecamatan Tanggungharjo Kabupaten Grobogan ). J Kesehatan Lingkungan Indonesia. 2007;6(1):24–32.

Chen W, Liu Y, Huang X, Rong Y. Respiratory Diseases Among Dust Exposed Workers. Respir Dis. 2012.

Tolinggi S, Nakoe MR, Gobel A, Sengke J, Keman S, Sudiana K, et al. Effect Inhaling of Limestone Dust Exposure on Increased Level of IL-8 Serum and Pulmonary Function Decline to Workers of Limestone Mining Industry. Int Ref J Eng Sci [Internet]. 2014;3(8):66–72. Available from: www.irjes.com

Isara AR, Adam VY, Aigbokhaode AQ, Alenoghena IO. Respiratory symptoms and ventilatory functions among quarry workers in Edo state, Nigeria. Pan Afr Med J. 2016;23:1–9.

Rafeemanesh E, Alizadeh A, Afshari Saleh L, Zakeri H. A study on respiratory problems and pulmonary function indexes among cement industry workers in Mashhad, Iran. Med Pr. 2015;66(4):471–7.

Lagiso ZA, Mekonnen WT, Abaya SW, Takele AK, Workneh HM. Chronic respiratory symptoms, lung function and associated factors among flour mill factory workers in Hawassa city, southern Ethiopia: “comparative cross-sectional study.” BMC Public Health. 2020;20(1):1–9.

Hinson AV, Lokossou VK, Schlünssen V, Agodokpessi G, Sigsgaard T, Fayomi B. Cotton dust exposure and respiratory disorders among textile workers at a textile company in the Southern part of Benin. Int J Environ Res Public Health. 2016;13(9).

Anwar SK, Mehmood N, Nasim N, Khurshid M, Khurshid B. Sweeper’s lung disease: A cross-sectional study of an overlooked illness among sweepers of Pakistan. Int J COPD. 2013;8:193–7.

Straumfors A, Heldal KK, Eduard W, Wouters IM, Ellingsen DG, Skogstad M. Cross-shift study of exposure-response relationships between bioaerosol exposure and respiratory effects in the Norwegian grain and animal feed production industry. Occup Environ Med. 2016;73(10):685–93.

Ali NA, Nafees AA, Fatmi Z, Azam SI. Dose-response of cotton dust exposure with lung function among textile workers: MultiTex study in Karachi, Pakistan. Int J Occup Environ Med. 2018;9(3):120–8.

Marie-Thérèse G, Sylvie M, Marine LG, Julie P, Sophie LB, Adeline HS. Dust exposure and health of workers in duck hatcheries. Ann Agric Environ Med. 2017;24(3):360–5.

Kakooei H, Gholami A, Ghasemkhani M, Hosseini M, Panahi D, Pouryaghoub G. Dust exposure and respiratory health effects in cement production. Acta Med Iran. 2012;50(2):122–6.

Meo SA, Al-Drees AM, Al Masri AA, Al Rouq F, Azeem MA. Effect of duration of exposure to cement dust on respiratory function of non-smoking cement mill workers. Int J Environ Res Public Health. 2013;10(1):390–8.

Wu Q, Han L, Xu M, Zhang H, Ding B, Zhu B. Effects of occupational exposure to dust on chest radiograph, pulmonary function, blood pressure and electrocardiogram among coal miners in an eastern province, China. BMC Public Health. 2019;19(1):1229.

Huang Y, Bao M, Xiao J, Qiu Z, Wu K. Effects of PM2.5 on cardio-pulmonary function injury in open manganese mine workers. Int J Environ Res Public Health. 2019;16(11).

Nordby KC, Fell AKM, Notø H, Eduard W, Skogstad M, Thomassen Y, et al. Exposure to thoracic dust, airway symptoms and lung function in cement production workers. Eur Respir J. 2011;38(6):1278–86.

Draid MM, Ben-Elhaj KM, Ali AM, Schmid KK, Gibbs SG. Lung function impact from working in the pre-revolution Libyan quarry industry. Int J Environ Res Public Health. 2015;12(5):5006–12.

Neghab M, Mohraz MH. Assessment of symptoms of respiratory disease & lung functional impairments associated with occupational inhalation exposure to carbon black dust. Iran Occup Heal. 2012;9(3):72–82.

Hamzah NA, Mohd Tamrin SB, Ismail NH. Metal dust exposure and lung function deterioration among steel workers: an exposure-response relationship. Int J Occup Environ Health [Internet]. 2016;22(3):224–32. Available from: http://dx.doi.org/10.1080/10773525.2016.1207040

Rachiotis G, Kostikas K, Pinotsi D, Hadjichristodoulou C, Drivas S. Prevalence of lung function impairment among Greek. 2018;49–52.

Ghosh T, Gangopadhyay S, Das B. Prevalence of respiratory symptoms and disorders among rice mill workers in India. Environ Health Prev Med. 2014;19(3):226–33.

Hosseini DK, Nejad VM, Sun H, Hosseini HK, Adeli SH, Wang T. Prevalence of respiratory symptoms and spirometric changes among non-smoker male wood workers. PLoS One [Internet]. 2020;15(3):1–10. Available from: http://dx.doi.org/10.1371/journal.pone.0224860

Fahim AE, El-Prince M. Pulmonary function impairment and airway allergy among workers in traditional bakeries. Int J Occup Med Environ Health. 2013;26(2):214–9.

Shieh TS, Chung JJ, Wang CJ, Tsai PJ, Kuo YC, Guo HR. Pulmonary function, respiratory symptoms, and dust exposures among workers engaged in early manufacturing processes of tea: A cohort study. BMC Public Health [Internet]. 2012;12(1):121. Available from: http://www.biomedcentral.com/1471-2458/12/121

Qian QZ, Cao XK, Qian QQ, Shen FH, Wang Q, Liu HY, et al. Relationship of cumulative dust exposure dose and cumulative abnormal rate of pulmonary function in coal mixture workers. Kaohsiung J Med Sci. 2016;32(1):44–9.

Rafeemanesh E, Majdi MR, Ehteshamfar SM, Fahoul MJ, Sadeghian Z. Respiratory diseases in agate grinding workers in Iran. Int J Occup Environ Med. 2014;5(3):130–6.

Hamatui N, Naidoo RN, Kgabi N. Respiratory health effects of occupational exposure to charcoal dust in Namibia. Int J Occup Environ Health. 2016;22(3):240–8.

Rusibamayila M, Meshi E, Mamuya S. Respiratory impairment and personal respirable dust exposure among the underground and open cast gold Miners in Tanzania. Ann Glob Heal. 2018;84(3):419–28.

Löfstedt H, Hagström K, Bryngelsson IL, Holmström M, Rask-Andersen A. Respiratory symptoms and lung function in relation to wood dust and monoterpene exposure in the wood pellet industry. Ups J Med Sci. 2017;122(2):78–84.

Thepaksorn P, Pongpanich S, Siriwong W, Chapman RS, Taneepanichskul S. Respiratory symptoms and patterns of pulmonary dysfunction among roofing fiber cement workers in the south of thailand. J Occup Health. 2013;55(1):21–8.

Mehrparvar A. A 2-year Follow-up of Spirometric Parameters in Workers of a Tile and Ceramic Industry, Yazd, Southeastern Iran. 2013;

Jacobsen GH, Schlünssen V, Schaumburg I, Sigsgaard T. Cross-shift and longitudinal changes in FEV1 among wood dust exposed workers. Occup Environ Med. 2013;70(1):22–8.

Zeleke ZK, Moen BE, Bråtveit M. Lung function reduction and chronic respiratory symptoms among workers in the cement industry: A follow up study. BMC Pulm Med [Internet]. 2011;11(1):50. Available from: http://www.biomedcentral.com/1471-2466/11/50

Wang F, Zou Y, Shen Y, Zhong Y, Lv Y, Huang D, et al. Synergistic impaired effect between smoking and manganese dust exposure on pulmonary ventilation function in guangxi manganese-exposed workers healthy cohort (GXMEWHC). PLoS One. 2015;10(2):1–11.

Paolo M, Kander A, Warde P. Dust: Definitions and Concepts. World Heal Organ. 2014;1–96.