Browsing by Author "Ariyawansa, J."

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    Exploring the impact of occupational exposure: A study on cardiovascular autonomic functions of male gas station attendants in Sri Lanka
    (Wiley periodicals LLC on behalf of the physiological society and the American physiological society, 2024-10) Warnakulasuriya, T.; Medagoda, K.; Kottahachchi, D.; Luke, D.; Wadasinghe, D.; Rathnayake, P.; Ariyawansa, J.; Dissanayake, T.; Sandeepani, P.; De Silva, D.C.; Devanarayana, N.M.
    Fuel dispensing at fuel stations is performed manually by unprotected male gas station attendants in Sri Lanka, who have long working hours. These workers are exposed to hydrocarbon fuels associated with multiple health effects by modulation of the autonomic nervous system. This study was performed to determine cardiovascular autonomic functions among fuel pump attendants in Sri Lanka. Fuel pump attendants (n = 50) aged between 19 and 65 years were identified for the study from seven fuel stations. They were compared with age- and gender-matched controls (n = 46) without occupational exposure to fuel. A physical examination was performed before the autonomic function and heart rate variability (HRV) assessment. There were no significant differences in weight, height, or BMI between the study and the control populations (p > 0.05). Both the systolic blood pressure (SBP) (Mann Whitney U (MWU) = 743.5, p = 0.003) and diastolic blood pressure (DBP) (MWU = 686.5, p = 0.001) were significantly higher among the gas station attendants compared to controls. Valsalva ratio was significantly higher among the study group (MW U = 874.00, p = 0.043) compared to controls. The HRV analysis showed significantly higher SDNN and SD2 (MWU = 842.00, p = 0.034, and MWU = 843.50, p = 0.035 respectively) among the gas station attendants compared to controls. The changes to the cardiovascular autonomic parameters among those exposed to fuel vapor as a gas station attendant indicate an increase in sympathetic outflow to the vessels. In the occupational setting as fuel pump attendants need periodic monitoring.
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    Lung function of fuel handlers exposed to volatile organic compounds
    (Journal of the Ceylon College of Physicians, 2020) Wadasinghe, D.; Warnakulasuriya, T.; Medagoda, K.; Kottahachchi, D.; Luke, D.; Ariyawansa, J.; Rathnayake, P.; Dissanayake, T.; de Silva, D.; Amarasiri, L.; Devanarayana, N.M.; Scheepers, P.
    INTRODUCTION AND OBJECTIVES: The respiratory system is a target for effects from air pollutants, including vehicle emissions composed of volatile organic compounds (VOC), particulate matter and other noxious gasses. Our objective was to study the association between selected VOCs and lung function in a cohort of fuel handlers. METHOD: Forty-four fuel handlers (men) from the Gampaha district of Sri Lanka aged 19-65 years were selected using consecutive sampling with a group of 38 males matched by age, without occupational exposure to fuel recruited as controls. Spirometry was performed using a Vitalograph Alpha Touch spirometer, according to ATS guidelines. Pre and post shift VOC levels were measured in end exhaled air samples. RESULTS: The spirometry parameters were not significantly different between the two groups but obstructive (47.72% vs.34.21%) and restrictive ventilatory patterns (31.81% vs. 21.05%) were higher among the fuel handlers. FVC and FEV1 negatively correlated with age (r=-0.672, p<0.001 and r=-6.888, p<0.001 respectively) and number of days of exposure (r=-0.329, p=0.033 and r=-0.306, p=0.049 respectively). Among the fuel handler's, benzene exposure negatively correlated with FVC (r=-0.552, p=0.012) and FEV1 (r=-0.476, p=0.034) and toluene exposure negatively correlated with PEF (r=-0.488, p=0.034). Although levels of all VOCs measured were significantly low among the controls, toluene exposure levels negatively correlated with all spirometry parameters (p<0.05). CONCLUSIONS: A decline in lung function is seen with more days of exposure as a fuel handler. The different vVOCs· affect the volume parameters and flow parameters uniquely and even non-occupational exposure causes an alteration of spirometry parameters among adult males.