Abstract
The optimal hydration plan [i.e., drink to thirst, ad libitum (ADL), or personalized plan] to be adopted during exercise in recreational athletes has recently been a matter of debate and, due to conflicting results, consensus does not exist. In the present investigation, we tested whether a personalized hydration strategy based on sweat rate would affect cardiovascular and thermoregulatory responses and exercise capacity in the heat. Eleven recreational male cyclists underwent two familiarization cycling sessions in the heat (34°C, 40% RH) where sweat rate was also determined. A fan was used to enhance sweat evaporation. Participants then performed three randomized time-to-exhaustion (TTE) trials in the heat with different hydration strategies: personalized volume (PVO), where water was consumed, based on individual sweat rate, every 10 min; ADL, where free access to water was allowed; and a control (CON) trial with no fluids. Blood osmolality and urine-specific gravity were measured before each trial. Heart rate (HR), rectal, and skin temperatures were monitored throughout trials. Time to exhaustion at 70% of maximal workload was used to define exercise capacity in the heat, which was similar in all trials (p = 0.801). Body mass decreased after ADL (p = 0.008) and CON (p < 0.001) and was maintained in PVO trials (p = 0.171). Participants consumed 0 ml in CON, 166 ± 167 ml in ADL, and 1,080 ± 166 ml in PVO trials. The increase in mean body temperature was similar among trials despite a lower increase in skin temperature during PVO trial in comparison with CON (2.1 ± 0.6 vs. 2.9 ± 0.5°C, p = 0.0038). HR was lower toward the end of TTE in PVO (162 ± 8 bpm) in comparison with ADL (168 ± 12 bpm) and CON (167 ± 10 bpm), p < 0.001. In conclusion, a personalized hydration strategy can reduce HR during a moderate to high intensity exercise session in the heat and halt the increase in skin temperature. Despite these advantages, cycling capacity in the heat remained unchanged.
Highlights
Attenuating fluid loss during exercise in the heat is believed to be an important requirement to maintain performance
The increase in core temperature and Mean body temperature (MBT) was similar among all trials, we observed a smaller increase in skin temperature in the personalized volume (PVO) trial in comparison with CON, p = 0.038, F(2, 15) = 4.70
Our main finding was that the personalized strategy resulted in lower Heart rate (HR) and skin temperature during exercise in the heat and attenuated the degree of dehydration
Summary
Attenuating fluid loss during exercise in the heat is believed to be an important requirement to maintain performance. Frontiers in Nutrition | www.frontiersin.org de Melo-Marins et al. Hydration Strategy in Cycling drinking) have similar outcomes during exercise [5, 6]. A classic paradigm between these two strategies is that blood osmolality is already elevated when thirst mechanisms are activated, which might already be enough to have detrimental impact on endurance performance [7, 8]. Personalizing a hydration strategy based on individual’s sweat rate appears as an alternative to the ADL and drink to thirst approaches [1, 3], but its influence on physiological and thermoregulatory parameters requires further investigation
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