Effects of carotid body hypocapnia during ventilatory acclimatization to hypoxia

M. R. Dwinell, P. L. Janssen, J. Pizarro, and G. E. Bisgard Department of Comparative Biosciences, School of Veterinary Medicine, University of Wisconsin, Madison, Wisconsin 53706 Received 10 June 1996; accepted in final form 9 September 1996. Dwinell, M. R., P. L. Janssen, J. Pizarro, and G. E. Bisgard. Effects of carotid body hypocapnia during ventilatory acclimatization to hypoxia. J. Appl. Physiol. 82(1): 118-124, 1997. Hypoxic ventilatory sensitivity is increased during ventilatory acclimatization to hypoxia (VAH) in awake goats, resulting in a time-dependent increase in expired ventilation ( E ). The objectives of this study were to determine whether the increased carotid body (CB) hypoxic sensitivity is dependent on the level of CB CO 2 and whether the CB CO 2 gain is changed during VAH. Studies were carried out in adult goats with CB blood gases controlled by an extracorporeal circuit while systemic (central nervous system) blood gases were regulated independently by the level of inhaled gases. Acute E responses to CB hypoxia (CB P O 2 40 Torr) and CB hypercapnia (CB P CO 2 50 and 60 Torr) were measured while systemic normoxia and isocapnia were maintained. CB P O 2 was then lowered to 40 Torr for 4 h while the systemic blood gases were kept normoxic and normocapnic. During the 4-h CB hypoxia, E increased in a time-dependent manner. Thirty minutes after return to normoxia, the ventilatory response to CB hypoxia was significantly increased compared with the initial response. The slope of the CB CO 2 response was also elevated after VAH. An additional group of goats ( n = 7) was studied with a similar protocol, except that CB P CO 2 was lowered throughout the 4-h hypoxic exposure to prevent reflex hyperventilation. CB P CO 2 was progressively lowered throughout the 4-h CB hypoxic period to maintain E at the control level. After the 4-h CB hypoxic exposure, the ventilatory response to hypoxia was also significantly elevated. However, the slope of the CB CO 2 response was not elevated after the 4-h hypoxic exposure. These results suggest that CB sensitivity to both O 2 and CO 2 is increased after 4 h of CB hypoxia with systemic isocapnia. The increase in CB hypoxic sensitivity is not dependent on the level of CB CO 2 maintained during the 4-h hypoxic period. carotid body chemoreceptors; goats; respiratory control 0161-7567/97 $5.00 Copyright © 1997 the American Physiological Society