Citation

Yamazaki F, Shiraki K, Sagawa S, Endo Y, Torii R, Yamaguchi H, Mohri M, Lin YC. Aviat. Space Environ. Med. 1998; 69(7): 643-646.

Affiliation

Department of Physiology, School of Medicine, University of Occupational and Environmental Health, Kitakyushu, Japan.

Copyright

(Copyright © 1998, Aerospace Medical Association)

DOI

unavailable

PMID

9681370

Abstract

BACKGROUND: This experiment was designed to examine the involvement of the autonomic nervous system in the production of hyperbaric bradycardia. METHODS: Four male divers were exposed to a He-O2 (heliox) environment at 24 atmosphere absolute (atm abs) for 7 d. The heart rate (HR) and respiratory rate were recorded at rest in the morning (0700 h) and at night (2230 h) on 1 d during a 5-d predive control, 2 d during a 7-d saturation dive at 24 atm abs, 2 d during decompression, and on 1 d during a 4-d postdive period. Cardiac sympathetic and parasympathetic activities were estimated by using a spectral analysis of the variability of R-R intervals. RESULTS: The morning HR did not fluctuate throughout the experimental days. The night time HR decreased (p < 0.05) by 11.8% on the first day at 24 atm abs compared with that of the predive control. The bradycardia diminished gradually and returned to the predive level with continued exposure at 24 atm abs. The high-frequency power of the cardiac variability, an index of cardiac parasympathetic activity, increased (p < 0.05) only in the first night at 24 atm abs, whereas the low-frequency power and a ratio of low- to high-frequency power, an index of cardiac sympathetic activity, were unchanged. CONCLUSIONS: The present results suggest that an increased parasympathetic activity rather than a decrease in the sympathetic activity is responsible for the bradycardia on exposure to heliox dry saturation dive at 24 atm abs. The mechanism of the gradual disappearance of the bradycardia is unknown, but perhaps it may be related to the development of cardiovascular deconditioning.

Language: en