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Publication AbstractsEvaluation of Cutaneous Insensible Water Loss During Hyperbaric Exposure in HumansHitoshi Yamaguchi, B.S., Motohiko Mohri, M.D., Ph.d., and Keizo Shiraki, M.D., Ph.d.Aviat Space Environ Med 1999; 70:990-5 AbstractBackground: Water evaporation diminishes in high pressure environment, however it is unknown whether insensible water dissipation from the human skin falls as a function of the increased environmental pressure. We designed the present study to measure cutaneous insensible water loss at various pressures during exposure to a simulated saturation dive. Methods: Four healthy male volunteers were exposed to eight different pressures between 1 and 18.4 atmospheres absolute (atm abs). Resting insensible water loss from the skin was measured as change in the body weight and corrected for the weight of the respiratory CO2 - O2 gas exchange and the respiratory water dissipation. Results: We made an equation for the relationship between cutaneous insensible water loss and environmental pressure as: w = 14.5 · P-0.48, where, w is cutaneous insensible water loss in g · m-2 · h-1, and P is the environmental pressure in atm abs. The average cutaneous insensible water loss (15.3 g · m-2 · h-1) at normal atmosphere decreased (p < 0.01) to 4.2 g · m-2 · h-1 (reduced by 73%) during a saturation dive to 18.4 atm abs. Conclusion: The amount of insensible water loss estimated from the equation was comparable to that of reported observations.Keywords: evaporative power, respiratory water dissipation, diffusivity of water vapor, empirical equation. Information on subscribing, and on obtaining copies of an article or of an entire issue. Table of Contents for Volume 70, Number 10 of the ASME journal.
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