Wan Mansor, Wan Aznani (2017) Exposure to traffic air pollutants (Benzene, Toluene, Xylene and PM10) and respiratory health implications among the traffic policemen in Klang Valley. [Project Paper] (Submitted)
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Abstract
Introduction: Traffic policemen working nature caused them to be exposed to traffic pollutants continuously. This study aimed to identify the exposure level of traffic air pollutants (Benzene, Toluene, Xylene and PM₁₀) among traffic policemen and the risks to their respiratory health. Methodology: A cross-sectional comparative study was conducted among 42 traffic policemen and 42 police officers from Traffic Police Stations in Klang Valley as exposed and comparative group respectively. A purposive sampling method was used to select the respondents based on the inclusion criteria. The questionnaire used was adapted from the American Thoracic Society for Adult Respiratory Health Disease (ATS-DLD) to collect information on sociodemographic and respiratory symptoms. Spirometer (Chestgraph Hi-105) was used to perform lung function test. Personal Air Sampling Pump (Gilian GilAir-3) was used to measure personal exposure level to PM₁₀. Ppbrae 3000 was used to measure the concentration of Benzene, Toluene and Xylene. Whereas DustTrak DRX Aerosol Particulate Monitors was used to measure the concentration of PM₁₀ in the indoor and outdoor ambient air. Result: The mean exposure level of PM₁₀ among the traffic policemen was 150.14 ± 130.66 mg/m³ compared to only 84.14 ± 94.11 mg/m³ among the comparative group. There was no significant different in FVC (litre) with t= -0.622: p= 0.535, FEV₁ (litre) with t= -0.283, p= 0.778, FVC% predicted with t= - 1.457, p= 0.149 and FEV₁% predicted with t= -0.028, p=0.325 between the exposed and comparative group. However, there was a significant difference in FEV₁/FVC% predicted with t=-2.990, p<0.05 between the exposed to comparative group. Discussion: Findings revealed that there was a significant difference in FEV₁/FVC% predicted between the two study groups and the lung function abnormalities were higher in the exposed group compared to the comparative group with a significant difference in FVC% predicted. The respiratory symptoms were significantly higher in the exposed group compared to the comparative group for chronic cough (OR=3.86, 95% CI= 1.44-10.34), wheezing (OR=4.08 95% CI= 1.50-11.10) and breathlessness (OR=3.48 95% CI =1.10-11.01). Conclusion: This study found that the traffic policemen that exposed to traffic air pollutants may have higher risk of having lung function reduction and increase the prevalence of respiratory symptoms.
| Item Type: | Project Paper |
|---|---|
| Faculty: | Faculty of Medicine and Health Science |
| Depositing User: | Ms Norafizah Radzuan |
| Date Deposited: | 21 Mar 2024 02:18 |
| Last Modified: | 21 Mar 2024 02:18 |
| URI: | http://psaspb.upm.edu.my/id/eprint/1618 |
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