Exploring the effects of outdoor physical work in the heat, with or without sodium bicarbonate supplementation, on markers of acute kidney injury
Jason Siegler, Brooke Butterick, Raul Freire, Jonathan Specht, Fabiano Amorim

TL;DR
This study examines whether sodium bicarbonate reduces kidney stress during outdoor work in the heat, finding no effect on kidney injury markers but lower perceived effort.
Contribution
The novel contribution is investigating sodium bicarbonate's effect on acute kidney injury markers during outdoor physical work in the heat.
Findings
Sodium bicarbonate caused alkalosis but did not reduce kidney injury markers like NGAL, TIMP2, or IGFBP-7.
Participants reported less perceived effort with sodium bicarbonate despite higher core temperature and heart rate.
No significant AKI was observed, but metabolic alkalosis reduced sensitivity to thermoregulatory and cardiovascular strain.
Abstract
Acute kidney injury (AKI) has been observed after prolonged physical activity in the heat. Although a range of strategies to reduce the incidence of AKI have been investigated, sodium bicarbonate (SB) supplementation may mitigate metabolic stress during physical exertion and potentially alleviate renal workload by lowering glomerular filtration demand, reducing bicarbonate reabsorption, and preserving kidney microcirculation. Therefore, the primary objective of this study was to investigate the effect of SB ingestion on markers of AKI. Fourteen healthy men and women (n = 6) completed two (SB & placebo) experimental 2‐hr outdoor work sessions in the heat (~35°C; ~20% humidity) designed to simulate construction tasks. Changes in acid–base balance, markers of kidney injury (NGAL, TIMP2, IGFBP‐7), thermotolerance, and work achieved throughout the experimental trials were analyzed using a…
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Taxonomy
TopicsThermoregulation and physiological responses · Climate Change and Health Impacts · Renal function and acid-base balance
