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Lookup NU author(s): Catherine Elliott
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With deep saturation diving a reduction in vital capacity caused by oxygen toxicity may be opposed by a training effect of respiratory muscles due to increased gas density and work of breathing. We measured lung and chest wall mechanics before and after a 28-day saturation dive to a pressure of 0.25 Mpa with the same profile of oxygen exposure as in a deep dive to a pressure of 3.7 MPa; 40 kPa during the isopression phase and 50 kPa during the decompression phase. Eight males aged 22-28 yr served as subjects. The measurements included dynamic lung volumes, static lung compliance, lung recoil pressure, and maximal respiratory pressures. Only one subject had decreased lung compliance and increased recoil pressure after the dive. The others had an increase in compliance and decrease in recoil pressure. There was a significant increase in inspiratory lung compliance (P=0.041) and a trend for a decrease in lung recoil pressure (P=0.061). We found no change in forced vital capacity, but decreases in forced expired volume in 1 s (P=0.049) and forced midexpiratory flow rate (P=0.009) were noted. There were no changes in maximal respiratory pressures. These findings are opposite to the classical findings associated with pulmonary oxygen toxicity. The results may reflect an increase in surfactant production and turnover as an early adaptive response to hyperoxic stress.
Author(s): Reed JW, Elliott C, Thorsen E
Publication type: Article
Publication status: Published
Journal: Undersea & Hyperbaric Medicine
Year: 2001
Volume: 28
Issue: 1
Pages: 19-23
ISSN (print): 1066-2936
ISSN (electronic):
Publisher: Undersea and Hyperbaric Medical Society, Inc.