Abstract
AbstractWe constructed an informing system to users for the heatstroke risk using a wearable perspiration ratemeter and the users’ thirst responses. The sweating ratemeter was constructed with a capacitive humidity sensor in the ventilated capsule. The timing point for informing heatstroke risk was decided to change from positive to negative on the second derivative of sweating curve. In addition, a wearable self-identification and -information system of thirst response was constructed with a smartphone. To evaluate the validity of wearable apparatus, we aimed to conduct human experiments of 16 healthy subjects with the step up and down physical exercises. The blood and urine samples of the subjects were collected before and after the 30-min physical exercise. The concentrations of TP, Alb, and RBC increased slightly with the exercise. In contrast, the concentrations of vasopressin in all subjects remarkably increased with the exercise. In almost subjects, they identified their thirst response until several min after the informing for heatstroke risk. In conclusion, the wearable ratemeter and self-information system of thirst response were suitable for informing system of heatstroke risk. The validity of timing point for informing heatstroke risk was confirmed with changes in the thirst response and concentrations of vasopressin in blood.
Publisher
Springer Science and Business Media LLC
Reference23 articles.
1. Epstein, Y. & Yanovich, R. Heatstroke. N. Engl. J. Med. 380, 2449–2459 (2019).
2. Bouchama, A. & Knochel, J. B. Heat stroke. N. Engl. J. Med. 346, 1978–1988 (2002).
3. Falk, B. & Dontan, R. Children’s thermoregulation during exercise in the heat: A revisit. Appl. Physiol. Nutr. Metab. 33, 420–427 (2008).
4. Epstein, Y. et al. Heat stroke: A case series. Med. Sci. Sports Exerc. 31, 224–228 (1999).
5. Shibasaki, M. & Crandall, C. G. Mechanisms and contollers of eccrine sweating in humans. Front. Biosci. 2, 685–696 (2010).
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