KnE Life Sciences
ISSN: 2413-0877
The latest conference proceedings on life sciences, medicine and pharmacology.
Lipopolysaccharides Endotoxin-containing Paddy Dust Leads to Cross-shift Lung Function Decline and Respiratory Complaints in Paddy Milling Machine Operators
Published date: May 17 2018
Journal Title: KnE Life Sciences
Issue title: The 2nd International Meeting of Public Health 2016 (IMOPH) – Part I
Pages: 442–451
Authors:
Abstract:
Lipopolysaccharides (LPS) LPS endotoxin-containing paddy dust leads to airway inflammation, lung function decline, and pneumonitis. Therefore, this study aimed to analyze the effect of LPS endotoxin-containing paddy dust on the cross-shift lung function decline and respiratory complaints of paddy milling machine operators. This environmental epidemiology study has an analytic observational design and used a cross-sectional approach. The study was conducted in the Bulubrangsi and Godog Villages in the Laren Sub-district of the Lamongan District. The study population was entirely made up of paddy milling machine operators from the Bulubrangsi and Godog Villages with certain inclusive criteria. This study used 18 samples, and results showed
that the average personal paddy dust inhalation level was 5.68 ± 1.28 mg/m3with the LPS endotoxin level at 232.22 ± 18.41 EU/m3. Interestingly, there was a very significant positive correlation between the personal paddy dust levels, the LPS endotoxin levels, and the cross-shift Forced vital capacity (FVC) and Forced expiratory volume (FEV1) declines (Spearman correlation test, all p < 0.01). There was also a positive correlation between the personal paddy dust levels, the cross-shift FVC% decline, and the respiratory complaints (Spearman correlation test, all p < 0.05). In conclusion, LPS endotoxin-containing paddy dust leads to cross-shift lung function decline in paddy milling machine operators. Smoking habits also correlated to a cross-shift decline in
FVC. It is recommended to reduce exposure to indoor endotoxin-containing paddy dust levels through measures of engineering, administrative, and wearing appropriate personal protective equipment at the workplace.
Keywords: LPS Endotoxin containing paddy dust, Lung function decline, Operator respiratory complaints
References:
[1] Chan-Yeung M., M. Schulzer, L. MacLean, et al. “Epidemiologic health survey of grain elevator workers in British Columbia.” American Review of Respiratory Disease Journal. Vol :15, (1980): 379–387.
[2] Chan-Yeung M., D.A. Enarson, S.M. Kennedy. The Impact of Grain Dust on Respiratory Health. Am. Rev. Respir. Dis 145, (1992): 476–487.
[3] Clapp W.D., P.S. Thorne, K.L Frees, et al. “The Effects of Inhalation of Grain Dust Extract and Endotoxin on Upper and Lower Airways.” Chest 104, (1993): 825–830.
[4] Clapp W.D., S. Becker, J. Quay, et al. “Grain Dust-induced Airflow Obstruction and Inflammation of the Lower Respiratory Tract.” Am. J. Resp. Crit Care Med 150. (1994): 611–617.
[5] Departemen Tenaga kerja dan transmigrasi Republik Indonesia, 2005. Modul Pelatihan Hiperkes dan Keselamatan Kerja; APD. Jakarta : Badan Litbang Depnakertrans, Pusat Pengembangan Keselamatn Kerja dan Hiperkes.
[6] DeLucca A.J II, M.A. Godshall, M.S Palmgren. “Gram-negative bacterial endotoxins in grain elevator dusts.” Am Ind Hyg Assoc J 45, no. 5 (1984): 336–339.
[7] Enarson D.A., S. Vedal, M. Chan-Yeung. “Rapid decline in FEVI in grain handlers.” Am Rev Respir Dis 132, (1985): 814–817.
[8] Huy T., K.D. Schipper, M. Chan-Yeung, et al. “Grain dust and lung function: doseresponse relationships.” Am Rev Respir Dis 144, (1991): 1314–1321
[9] Jagielo Paul J., S. Peter, Thorne, et al. “Grain Dust and Endotoxin Inhalation Challenges Produce Similar Inflammatory Responses in Normal Subjects.” Chest 110, (1996): 263–270.
[10] Keman S., B. Willemse, G.J. Wesseling, et al. “A Five Year Follow-Up of Lung Function Among Chemical Workers Using Flow Volume and Impedance Measurements.” Eur Resp J 9, (1996): 2109–2115.
[11] Keman S., J. Manon, J. Douwes, and P.J.A. Borm. “Longitudinal Changes in Inflammatory Markers in Nasal Lavage of Cotton Workers: Relation to Endotoxin Exposure and lung Function Changes.” International Archive of Occupational and Environmental Health, (1997) vol 71: 85–98.
[12] Keman S. Biomarkers of Chronic Non-specific Airway Diseases: An Application of Molecular Epidemiology in Occupational Settings. Maastricht: Unigraphic and Maastricht University, 1997.
[13] Kennedy S.M. Agent Causing Chronic Airway Obstruction, In Occupational and Environmental Respiratory Disease. St. Lewis Missouri: Mosby Yee Biik, Inc., 1996.
[14] Mangesha, Y.A. and A. Bekele. “Relative Chronic Effects Of Different Occupational Dusts on Respiratory Indices And Health Of Workers In Three Ethiopian Factories.” American Journal of Industrial Medicine, (1998). Vol 34 : 373-380
[15] Marx J.J., J.T. Twiggs, B.J. Ault, et al. ”Inhaled Aeroallergen and Storage Mite Reactivity in a Wisconsin Farmer Nested Case-Control Study.” Am Rev Respir Dis 147, (1993): 354–358.
[16] Medan I. “Occupational Asthma and Other Respiratory Diseases.” BMJ 313, (1996): 219–214.
[17] Mink J.T., J.W Gerrard, D.W. Cockcroft, et al. “Increased bronchial reactivity to inhaled histamine in nonsmoking grain workers with normal lung function.” Chest 77, (1980): 28–31.
[18] Olenchock S.A., J.J. May, D.S. Pratt, et al. “Presence of Endotoxins in Different Agricultural Environments.” Am. J. Ind. Med 18, (1990): 279–284.
[19] Rylander R, B.K. Bake, J.J. Fischer, et al. “Pulmonary function and symptoms after inhalation of endotoxin.” Am Rev Respir Dis 140, (1989): 981–986.
[20] Rylander R. “Organic Dusts and Lung Disease: The Role of Inflammation.” Ann. Agric. Environ. Med 1, (1994): 7–10.
[21] Schwartz D.A., P.S. Thorne, S.J. Yaglan, et al. “The Role of Endotoxin in Grain Dustinduced Lung Disease.” Am. J. Respir. Crit. Care. Med 152, (1995): 603–608.
[22] Schwartz D.A. “Grain Dust, Endotoxin, and Airflow Obstruction.” Chest 109, (1996): 57S–63S.
[23] Smid T., D. Heederik, G. Mensink, et al. “Exposure to Dust, Endotoxins, and Fungi in The Animal Feed Industry.” Am. Ind. Hyg. Assoc. J 53, (1992a): 362–368.
[24] Smid T., D. Heederik, R. Houba, and P.H. Quanjer. “Dust and Endotoxin-Related Respiratory Effects in The Animal Feed Industry.” Am. Rev. Respir. Dis 146, (1992b): 1474–1479.
[25] World Health Organisastion. 1995 Deteksi Dini Penyakit Akibat Kerja. Jakarta: EGC
[26] Yunus F. “Penata laksanaa Batuk dalam Praktek Sehari-Hari.” Cermin Dunia Kedokteran 84, (1993): 13–18.