The physiological strain incurred during electrical utilities work over consecutive work shifts in hot environments: A case report

The physiological strain incurred during electrical utilities work over consecutive work shifts in hot environments: A case report

Purpose: In this article, we evaluated physiological strain in electrical utilities workers during consecutive work shifts in hot outdoor conditions. Methods: Four highly experienced electrical utilities workers were monitored during regularly scheduled work performed in hot conditions (∼34°C) on tw...

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Bibliographic Details
Published in:Journal of occupational and environmental hygiene Vol. 14; no. 12; pp. 986 - 994
Main Authors: Meade, Robert D., D'Souza, Andrew W., Krishen, Lovely, Kenny, Glen P.
Format: Journal Article
Language:English
Published: England Taylor & Francis 02-12-2017
Subjects:
Adult
Body Temperature - physiology
Climate change
Dehydration
Heart Rate - physiology
heat exposure
Heat Stress Disorders - physiopathology
heat waves
Hot Temperature - adverse effects
Humans
Male
Middle Aged
Occupational Exposure - adverse effects
occupational heat stress
Physical Exertion - physiology
Stress, Physiological
workers
Climate change
heat waves
occupational heat stress
workers
heat exposure
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Summary:Purpose: In this article, we evaluated physiological strain in electrical utilities workers during consecutive work shifts in hot outdoor conditions. Methods: Four highly experienced electrical utilities workers were monitored during regularly scheduled work performed in hot conditions (∼34°C) on two consecutive days. Worker hydration (urine specific gravity) was assessed prior to and following work. The level of physical exertion was determined by video analysis. Body core temperature (T core ) and heart rate (HR; presented as a percentage of maximum, %HR max ) were monitored continuously. Responses were reported for each worker individually and as a group mean ± standard deviation. Results: According to current guidelines, all workers were dehydrated prior to work on both days (urine specific gravity: day 1, 1.025 ± 0.005; day 2, 1.029 ± 0.004) and remained dehydrated following work (urine specific gravity: day 1, 1.027 ± 0.015; day 2, 1.032 ± 0.004) except for one worker on day 1 (urine specific gravity of 1.005). On day 1, the proportion of the work shift spent at rest (as defined by the American Conference for Governmental and Industrial Hygienists, ACGIH) was 51 ± 15% (range: 30-64%). Time spent resting increased in all workers on the second day reaching 66 ± 5% (range: 60-71%) of the work shift. Work shift average T core was 37.6 ± 0.1°C (range: 37.5-37.7°C) and 37.7 ± 0.2°C (range: 37.5-37.9°C) on days 1 and 2, respectively. Peak T core surpassed the ACGIH recommended threshold limit of 38.0°C for work in the heat in three workers on day 1 (38.1 ± 0.2°C, range: 37.8-38.2°C) while all workers exceeded this threshold on day 2 (38.4 ± 0.2°C, range: 38.2-38.7°C). By contrast, work shift average (day 1, 67 ± 7%HR max , range: 59-74%HR max ; day 2, 65 ± 4%HR max , range: 60-70%HR max ) and peak (day 1, 90 ± 6%HR max , range: 83-98%HR max ; day 2, 87 ± 10%HR max , range: 73-97%HR max ) HR were similar between days. Conclusion: This case report demonstrates elevations in thermal strain over consecutive work shifts despite decreases in work effort in electrical utilities workers during regular work in the heat.
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ISSN:1545-9624
1545-9632
DOI:10.1080/15459624.2017.1365151