Impact of Construction Workers’ Physical Health and Respiratory Issues in Hot Weather: A Pilot Study
Publication: Tran-SET 2022
ABSTRACT
Construction sector encounters highest workplace accidents. The hazardous nature of construction worksites cannot be eliminated, but efforts can be taken to reduce the workplace accidents through improved safety practices. Ignoring the unsafe behavior and practices in workplace leads to increase in workplace injuries and mortalities. Outdoor occupation has experienced increased mortality rates due to compromised attention on workers’ health and safety practices. Incidence of mortalities due to respiratory issues have been on the rise during hot weather conditions. Performing in hot temperatures can further trigger various other health ailments such as heat cramps, heat exhaustion, heat edema, and mental health issues. The aim of this study is to identify the effects of hot weather on construction workers’ health and to develop a predictive model on workers’ respiratory issues based on various demographic factors. To achieve this, a questionnaire survey was developed and distributed to workers in construction industry. The results of the survey revealed that the effects of temperature on workers’ health is not uniform and varies based on attributes such as gender and type of construction sector. The outcomes of this study will help project managers and safety professionals to develop preventive measures for workers performing in extreme temperatures.
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REFERENCES
Abdulqader, Q. M. (2017). Applying the binary logistic regression analysis on the medical data. Science Journal of University of Zakho, 5(4), 330–334.
Acharya, P., Boggess, B., and Zhang, K. (2018). “Assessing heat stress and health among construction workers in a changing climate: A review.” International Journal of Environmental Research and Public Health. 15 (2). 247.
Aljumaan, M., Alhawaj, F., Alkhalifa, S., Alhussain, N., Alhashim, A., Alahmadi, L., and Aljarudi, S. (2019). Awareness of heat-related illnesses in population of Saudi Arabia. The Egyptian Journal of Hospital Medicine, 74(4), 802–808.
Applebaum, K. M., Graham, J., Gray, G. M., et al. An Overview of Occupational Risks From Climate Change. Curr Envir Health Rpt 3, 13–22 (2016). https://doi.org/10.1007/s40572-016-0081-4.
Arbury, S., Lindsley, M., and Hodgson, M. (2016). A critical review of OSHA heat enforcement cases: lessons learned. Journal of Occupational and Environmental Medicine, 58(4), 359–363.
Basu, R., et al. The effect of high ambient temperature on emergency room visits. Epidemiology, 2012. 23(6): p. 813–20.
Byers, N., Ritchey, M., Vaidyanathan, A., Brandt, A. J., and Yip, F. Short-term effects of ambient air pollutants on asthma- related emergency department visits in Indianapolis, Indiana, 2007–2011. J. Asthma 2015, 53, 245–252.
Bouchama, A., and Knochel, J. P. Heat stroke. N Engl J Med, 2002. 346(25): p. 1978–88.
Cheung, S. S., Lee, J. K. W., and Oksa, J. (2016). “Thermal stress, human performance, and physical employment standards.” Applied Physiology, Nutrition, and Metabolism, 41(6 (Suppl. 2)), S148–S164. https://doi.org/10.1139/apnm-2015-0518.
Ehsan, S., Abbas, F., Ibrahim, M., Ahmad, B., and Farooque, A. Thermal Discomfort Levels, Building Design Concepts, and Some Heat Mitigation Strategies in Low-Income Communities of a South Asian City. Int. J. Environ. Res. Public Health 2021, 18, 2535.
El-Shafei, D. A., Bolbol, S. A., Awad Allah, M. B., and Abdelsalam, A. E. (2018). Exertional heat illness: Knowledge and behavior among construction workers. Environmental Science and Pollution Research, 25(32), 32269–32276.
Field, A. (2009). Logistic regression. Discovering statistics using SPSS, 264, 315.
Green, R. S., et al. The effect of temperature on hospital admissions in nine California counties. Int J Public Health, 2010. 55(2): p. 113–21.
Gregor, A. M. (2019). Toward a Legal Standard of Tolerable Heat. Colum. J. Envtl. L., 44, 479.
Grigorieva, E., and Lukyanets, A. (2021). Combined effect of hot weather and outdoor air pollution on respiratory health: Literature review. Atmosphere, 12(6), 790.
Gronlund, C. J., Zanobetti, A., Wellenius, G. A., Schwartz, J. D., and O’Neill, M. S. (2016). Vulnerability to renal, heat and respiratory hospitalizations during extreme heat among US elderly. Climatic Change, 136(3), 631–645.
Gubernot, D. M., Anderson, G. B., and Hunting, K. L. (2015). Characterizing occupational heat‐related mortality in the United States, 2000–2010: An analysis using the census of fatal occupational injuries database. American journal of industrial medicine, 58(2), 203–211.
Habibi, M., Kermanshachi, S., and Rouhanizadeh, B. (2019). Identifying and Measuring Engineering, Procurement, and Construction (EPC) Key Performance Indicators and Management Strategies. Infrastructures, 4(2), 14. https://doi.org/10.3390/infrastructures4020014.
Harduar Morano, L. (2016). Ambient Outdoor Heat and Heat-related Illness in Florida. https://doi.org/10.17615/3ste- t186.
Hifumi, T., Kondo, Y., Shimizu, K., and Miyake, Y. (2018). Heat stroke. J. Intensive Care 6, 30.
Karthick, S., Kermanshachi, S., and Loganathan, K. (2022). “Effect of Cold Temperatures on Health and Safety of Construction Workers.” Proceedings of the Transportation Consortium of South-Central States (Tran-SET) conference, Aug 2022.
Karthick, S., Kermanshachi, S., and Pamidimukkala, A. (2022). “Evaluation of Health Care Costs for Field Workers: Analysis of Extreme Weather Working Conditions.” In International Conference on Transportation and Development, 2022. Seattle, Washington, May 31-June 3, 2022.
Karthick, S., Kermanshachi, S., Pamidimukkala, A., and Namian, M. (2022). A review of construction workforce health challenges and strategies in extreme weather conditions, International Journal of Occupational Safety and Ergonomics. DOI: https://doi.org/10.1080/10803548.2022.2082138.
Karthick, S., Kermanshachi, S., and Pamidimukkala, A. Impact Analysis of Heat on Physical and Mental Health of Construction Workforce. International conference on transportation and development (ICTD), 2022. Seattle, Washington.
Karthick, S., Kermanshachi, S., and Ramaji, I. Health, and Safety of Construction Field Workforce Active in Extreme Weather Conditions. Proceedings of ASCE Construction Research Congress (CRC). Virginia, US, 2022. p. 737–747. DOI: https://doi.org/10.1061/9780784483985.075.
Karthick, S., Kermanshachi, S., Rouhanizadeh, B., and Namian, M. (2021). “Short-and Long-Term Health Challenges of Transportation Workforce due to Extreme Weather Conditions.” In Tran-SET 2021 (pp. 39–51). Reston, VA: American Society of Civil Engineers. DOI: https://doi.org/10.1061/9780784483787.005.
Kermanshachi, S., Thakur, R., and Govan, P. (2018). Discovering the impact of late change orders and rework on labor productivity: a water treatment case study analysis using system dynamics modeling. In Proceedings of the Construction Research Congress, New Orleans, LA, USA (pp. 2–4).
Kermanshachi, S., Rouhanizadeh, B., and Dao, B. (2020). “Application of Delphi method in identifying, ranking, and weighting project complexity indicators for construction projects”, Journal of Legal Affairs and Dispute Resolution in Engineering and Construction, Vol. 12 No. 1, p. 04519033.
Kenny, G. P., et al. Heat stress in older individuals and patients with common chronic diseases. CMAJ, 2010. 182(10): p. 1053–60.
Kjellstrom, T., Lemke, B., and Venugopal, V. Occupational health and safety impacts of climate conditions. (2013): 145–156.
Lin, S., et al. Extreme high temperatures and hospital admissions for respiratory and cardiovascular diseases. Epidemiology, 2009. 20(5): p. 738–46.
Liu, W., Meng, Q., Li, Z., and Hu, X. (2021). Applications of computer vision in monitoring the unsafe behavior of construction workers: Current status and challenges. Buildings, 11(9), 409.
Lohrey, S., Chua, M., Gros, C., Faucet, J., and Lee, J. K. (2021). Perceptions of heat-health impacts and the effects of knowledge and preventive actions by outdoor workers in Hanoi, Vietnam. Science of The Total Environment, 794, 148260.
Lucas, R. A., Epstein, Y., and Kjellstrom, T. (2014). Excessive occupational heat exposure: a significant ergonomic challenge and health risk for current and future workers. Extreme physiology & medicine, 3(1), 1–8.
Lundgren Kownacki, K. (2018). The heat is on: Evaluation of workplace heat stress under a changing climate. Department of Design Sciences, Faculty of Engineering, Lund University.
Michelozzi, P., Accetta, G., De Sario, M., D’Ippoliti, D., Marino, C., Baccini, M., and Perucci, C. A. (2009). High temperature and hospitalizations for cardiovascular and respiratory causes in 12 European cities. American journal of respiratory and critical care medicine, 179(5), 383–389.
Neha Raukar, M. D., Lemieux, R., and Rebecca Stearns PHD, A. T. C. (2015). Heat illness-A practical primer. Rhode Island Medical Journal, 98(7), 28.
Nipa, T. J., Kermanshachi, S., and Patel, R. K. Analysis of the resilience management dimensions based on project complexity level. In: Construction Research Congress 2022; 2022. p. 80–9. DOI: https://doi.org/10.1061/9780784483954.009.
Noakes, T. D. A modern classification of the exercise-related heat illnesses. J Sci Med Sport, 2008. 11(1): p. 33–9.
Pamidimukkala, A., and Kermanshachi, S. (2021). Impact of Covid-19 on Field andOffice Workforce in Construction Industry. Proj. Leadersh. Soc. 2, 100018. https://doi.org/10.1016/j.plas.2021.100018.
Pamidimukkala, A., Kermanshachi, S., and Nipa, T. J. (2021). “Impacts of COVID-19 on Health and Safety of Workforce in Construction Industry,” In Proceedings of the 2020 ASCE International Conference on Transportation & Development. DOI: https://doi.org/10.1061/9780784483541.040.
Parsons, K. (2014). Human thermal environments: the effects of hot, moderate, and cold environments on human health, comfort, and performance. Third Edition. CRC Press. DOI:https://doi.org/10.1201/b16750-2.
Qian, Z., He, Q., Lin, H. M., Liao, D., Kong, L., Zhou, D., and Wang, B. (2006). Acute Mortality Effects of Ambient Particle Air Pollution, Air Pollution-By-Hot Weather Interaction in Wuhan, China. Epidemiology, 17(6), S266.
Raukar, N., Lemieux, R., Finn, G., Stearns, R., and Casa, D. J. Heat Illness - A Practical Primer. R I Med J (2013). 2015 Jul 1;98(7):28–31. 26125476.
Rouhanizadeh, B., and Kermanshachi, S. (2021). “Causes of the Mental Health Challenges in Construction Workers and Their Impact on Labor Productivity.” In Transportation Consortium of South-Central States (Tran-SET) Conference. DOI: https://doi.org/10.1061/9780784483787.003.
Safapour, E., Kermanshachi, S., Shane, J., and Anderson, S. (2017). Exploring and assessing the utilization of best practices for achieving excellence in construction projects. In proceedings of the 6th CSCE International Construction Specialty Conference (pp. 1–9).
Safapour, E., Kermanshachi, S., and Kamalirad, S. (2019). “Development of the effective communication network in construction projects using structural equation modeling technique.” In Proc., ASCE Int. Conf. on Computing in Civil Engineering. Reston, VA: ASCE.
Safapour, E., Kermanshachi, S., Kamalirad, S., and Tran, D. (2019). Identifying effective project-based communication indicators within primary and secondary stakeholders in construction projects. Journal of Legal Affairs and Dispute Resolution. Eng. Constr. 11 (4), DOI: https://doi.org/10.1061/(asce)la.1943-4170.0000332.
Safapour, E., Kermanshachi, S., and Ramaji, I. (2018). “Entity-based investigation of project complexity impact on size and frequency of construction phase change orders”, Proceedings of Construction Research Congress, pp. 2–4, April. https://doi.org/10.1061/9780784481271.066.
Schulte, P. A., and Chun, H. (2009). “Climatec change and occupational safety and health: Establishing a preliminary framework.” Journal of Occupational and Environmental Hygiene. 6 (9): 542–554. DOI: https://doi.org/10.1080/15459620903066008.
Schwartz, J., Samet, J. M., and Patz, J. A. Hospital admissions for heart disease: the effects of temperature and humidity. Epidemiology, 2004. 15(6): p. 755–61.
Song, X., Wang, S., Li, T., Tian, J., Ding, G., Wang, J., and Shang, K. (2018). The impact of heat waves and cold spells on respiratory emergency department visits in Beijing, China. Science of the total environment, 615, 1499–1505.
Tymvios, N., Behm, M., Jia, Y., and Johnson, K. (2016). “Heat stress in the US. Construction industry”, CIB WBC 2016, Tampere, Finland.
Ye, X., et al. Ambient temperature and morbidity: a review of epidemiological evidence. Environ Health Perspect, 2012. 120(1): p. 19–28.
Wang, X. Y., et al. The impact of heatwaves on mortality and emergency hospital admissions from non-external causes in Brisbane, Australia. Occup Environ Med, 2012. 69(3): p. 163–9.
Wong, D. P., Chung, J. W., Chan, A. P., et al. Comparing the physiological and perceptual responses of construction workers (bar benders and bar fixers) in a hot environment. Applied Ergonomics. 2014; 45:1705–1711.
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Published online: Dec 13, 2022
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