AJP - Regulatory, Integrative and Comparative Physiology, Vol 241, Issue 5 293-R300, Copyright © 1981 by American Physiological Society

ARTICLES

Glucoregulation and simulated diving in the harbor seal Phoca vitulina

E. D. Robin, J. Ensinck, A. J. Hance, A. Newman, N. Lewiston, L. Cornell, R. W. Davis and J. Theodore

Plasma glucose, glucagon, and insulin concentrations were measured in the harbor seal, Phoca vitulina, during a 6-min dive and a 30-min recovery period. Studies were performed in the fasting state and following intravenous glucose. During diving in the fasting state, values of plasma glucose, glucagon, and insulin are not significantly different from prediving values, presumably because of the loss of perfusion to the pancreas. In the postdiving period, plasma glucagon increases significantly. The increased glucagon levels reach a peak at 6 min into the postdiving period. By 4 min postdiving, plasma glucose values increase. The hyperglycemia appears to be at least partially related to hyperglucagonemia. Despite hyperglycemia, insulin levels do not change significantly. The net effect is to increase glucose availability, particularly for non-insulin-requiring tissues (brain). Preadministration of glucose eliminates the postdiving increase in glucagon. Plasma glucose and insulin concentrations also show no significant changes during the diving and postdiving periods. These results suggest that hormonally mediated glucose conservation serves to maintain brain glucose supplies and to restore peripheral carbohydrate stores during the postdiving period.

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