Association between PM2.5 and Oxidative Stress Using Malondialdehyde Biomarker among Workers in a Concrete Batching Plant in 2018 Munaya Ema Fiki1, Achmadi Umar Fahmi2,*, Hartono Budi3, Djaja I Made2, Ramdhan Doni Hikmat3 1Student Faculty of Public Health, Universitas of Indonesia, Depok, Indonesia 2Profesor in Environmental Health Study, Faculty of Public Health, Universitas of Indonesia, Depok, Indonesia 3Lecturer in Faculty of Public Health, Universitas of Indonesia, Depok, Indonesia *Corresponding author: Umar Fahmi Achmadi, Prof, dr, M. Ph, PhD Profesor in Environmental Health Study, Faculty of Public Health, Universitas Indonesia e-mail: ufahmi@ui.ac.id, Mobile: +62816815794
Online published on 8 March, 2019. Abstract Background Severe air pollution has affected the health of individuals both nationally and globally. The dangerous pollutant PM2.5 could trigger oxidative damage, which has been widely studied in relation to health problems, such as lung cancer, chronic obstructive pulmonary, and cardiovascular diseases. Malondialdehyde (MDA), which is a secondary product of the lipid peroxidation of polyunsaturated fatty acids, is a marker of oxidative stress. Objective This study aims to analyze the association between PM2.5 and MDA concentration in concrete batching plant workers as a population at risk of dust pollution. Material & Method This research was conducted in April-May 2018 with a cross-sectional method involving 53 samples of workers chosen by simple random sampling. Beside PM2.5 and MDA concentration, other variables including smoking status, supplement consumption, age, physical activity, body mass index, years of work, and rotational shift working were also studied. Results The results indicated a significant correlation of PM2.5 and age with MDA concentrations in concrete batching plant workers. P value between PM2.5 and MDA concentration was 0.025 with OR 15, 791 CI (1, 410–176, 833). These findings suggest that exposure to PM2.5 leads to oxidative stress as evidenced by MDA concentration. These findings suggest that exposure to PM2.5 leads to oxidative stress as evidenced by MDA concentration. Top Keywords PM2.5, oxidative stress, malondialdehyde (MDA), concrete batching plant, industry, age. Top |