Browsing by Author "Ariyawansha, J."

Now showing 1 - 3 of 3

Autonomic functions among fuel handlers in the Gampaha District
(Journal of the Ceylon College of Physicians, 2020) Medagoda, K.; Warnakulasuriya, T.; Kottahachchi, D.; Luke, D.; Wadasinghe, D.; Ariyawansha, J.; Rathnayaka, P.; Dissanayake, T.; de Silva, D.; Devanarayana, N.M.
INTRODUCTION AND OBJECTIVES: Economic growth of Sri Lanka has increased the number of motor vehicles. Fuel stations employing more fuel handlers have been established to cope with the demand. The long working hours with exposure to hydrocarbon fuels result in adverse health effects and this study was done to assess the cardiovascular autonomic functions (ANF) including heart rate variations (HRV). METHOD: Fifty fuel handlers from the Gampaha district of Sri Lanka (19-65 years; all were males) from 7 fuel stations were recruited using consecutive sampling and compared with 46 age and gender matched individuals without occupational exposure to fuel (controls). Demographic data were collected after obtaining informed written consent and systematic examination was conducted. ANF assessment and HRV assessment were performed using validated protocols. RESULTS: There were no significant differences in age, weight, height or the BMI among the study and the control populations (p>0.05). Both systolic blood pressure (BP) (Mann Whitney U (MW)= 743.5, p=0.003), diastolic BP (MW= 686.5, p=0.001) and Valsalva ratio (MW= 874.00, p=0.043) were significantly higher among the fuel handlers compared to the controls. Rise in DBP in sustained handgrip, a sympathetic parameter was significantly higher among controls (MW= 863.00, p=0.049). Among HRV parameters, standard deviation of RR intervals was higher among the fuel handlers compared to controls (MW=842.QO, p=0.034). Parasympathetic parameters correlated with exposure hours per week (p<0.05). CONCLUSION: Altered sympathetic: parasympathetic balance was observed among the fuel handlers with a parasympathetic predominance suggesting that autonomic functions are affected on expo sure to air pollution and hydrocarbons.
Cardiovascular autonomic functions of gas station attendants in Sri Lanka
(Springer Nature., 2021) Warnakulasuriya, T.; Medagoda, K.; Kottahachchi, D.; Luke, D.; Wadasinghe, D.; de Silva, D.; Ariyawansha, J.; Rathnayaka, P.; Dissanayaka, T.; Fernando, S.; Devanarayana, N.M.
Introduction: Sri Lanka, a middle-income country in South Asia, has seen a rapid expansion in motor vehicles and, associated with this, an increase in demand for fuel. The dispensing of fuel at fuel stations is performed manually by male fuel handlers, who have long working hours. Such workers are exposed to hydrocarbon fuels which are associated with multiple health effects. This study was performed to determine cardiovascular autonomic functions among fuel handlers in a densely populated district of Sri Lanka. Methods: Fuel handlers (n = 50) from the Gampaha district of Sri Lanka, aged between 19 and 65 years, were identified for the study from seven selected fuel stations. Age and gender-matched controls (n = 46) without occupational exposure to fuel were used as controls. All participants were male (females were not employed as fuel handlers). After obtaining written informed consent, demographic data were collected, and general physical examination performed before autonomic function assessment. Non-parametric methods were used for data analysis. Ethical approval was granted by the ethics review committee of the Faculty of Medicine, University of Kelaniya, Sri Lanka. Results: There were no significant differences in weight, height or BMI among the study and the control populations (p[0.05). Both the systolic (SBP) and diastolic (DBP) blood pressures were significantly higher among the fuel handlers compared to controls (SBP, Mann Whitney U = 743.5, p = 0.003) and (DBP, Mann Whitney U = 686.5, p = 0.001). Valsalva ratio was significantly higher among the fuel handlers (Mann Whitney U—874.00, p = 0.043). The rise in DBP during sustained handgrip, a sympathetic parameter, was significantly higher among the controls (Mann Whitney U = 863.00, p = 0.049). Conclusions: Altered sympathetic:parasympathetic balance was observed among the fuel handlers. Monitoring of the health, using personal protective equipment, and curtailing hours of employment per week is recommended for those employed at fuel stations.
Heart rate variability among gas station attendants exposed to benzene, toluene, and xylenes (BTX) in Sri Lanka
(Springer Nature., 2021) Warnakulasuriya, T.; Medagoda, K.; Kottahachchi, D.; Luke, D.; Wadasinghe, D.; de Silva, D.; Ariyawansha, J.; Rathnayaka, P.; Dissanayaka, T.; Fernando, S.; Devanarayana, N.M.; Scheepers, P.T.J.
Introduction: Benzene, toluene, and xylenes (BTX) exposure among gas station attendants in Sri Lanka is high. Cardiovascular morbidity and mortality are reported to be higher among those exposed to BTX. A hypothesis is based on alterations in the autonomic nervous system, especially disruption of autonomic regulation of the heart. Autonomic regulation of cardiac functions can be assessed by short-term heart rate variability (HRV), which measures the fluctuations in the interval between sequential sinus heartbeats. Objective: To determine whether BTX exposure affects the heart rate variability (HRV) among gas station attendants. Methods: Forty-nine gas station attendants from the Gampaha district of Sri Lanka, aged between 19 and 65 years, were recruited for the study. Age and gender-matched controls (n = 46) without occupational exposure to fuel were used as controls. Ethical approval for the study was granted by the Ethics Review Committee of the Faculty of Medicine, University of Kelaniya, Sri Lanka. Informed written consent was obtained from each participant. Demographic data were collected, and a physical examination was performed before the HRV assessment. We measured SDNN, RMSSD, pNN50, HF, LF, and LF: HF ratio as HRV indices. Pre- and post-shift samples of end-exhaled air were collected and analyzed for BTX using a thermal desorption gas chromatography–mass spectrometry system (TD-GC-MS) among 24 gas station attendants and 14 controls. As a proxy of shift exposure, we calculated the increase from pre-shift (as a baseline) to postshift and reported this as ‘delta’. Results and discussion: For gas station attendants (n = 24) median pre-/post-shift exhaled air concentrations (ng/L) were: benzene 10.47/ 19.00; toluene 10.41/21.86; m/p-xylene 1.63/2.14; o-xylene 0.93/1.42. For controls (n = 14) these values were 9.40/11.05, 3.19/3.91, 1.23/ 1.43 and 0.47/0.47. The heart rate variability (HRV) analysis showed significantly higher SDNN and SD2 among the gas station attendants (n = 49) than controls (n = 46) (Mann Whitney U = 842.00, p = 0.034 and Mann Whitney U = 843.50, p = 0.035, respectively). RMSSD, pNN50, Total power, HF, and SD1 among gas station attendants negatively correlated at a significant level with the mean increment in exposure to BTX (p\0.05).Conclusions: Exposure to BTX alters the HRV indices, indicating an effect on autonomic cardiac regulation. Funding: University of Kelaniya research grant: RP/03/04/03/01/ 2017, Foreign Award 2017 of the Dutch Occupational Hygiene Society (NVvA).