Anesthetized, paralyzed dogs were ventilated with a low inspired O2 fraction or were isovolemically hemodiluted until aerobic metabolism could not be supported at the prehypoxic level. O2 uptake became a single linear function of total O2 delivery (QxCaO2) in both anemic and hypoxic hypoxia. At the same time, mixed venous PO2 was significantly higher during anemic hypoxia than during hypoxic for a comparable level of reduction in O2 uptake. The objectives of the proposed research will be to ascertain whether the state of sympathetic vasoconstrictor tone in regional circulatory beds was responsible for both observations. In brief, stimulation of aortic and carotid chemoreceptors by low PO2 may increase sympathetic vasoconstrictor tone so that blood flow is selectively directed toward regions with a high obligatory level of O2 demand to maintain viability. This is accomplished by local vasodilatory processes which are directly proportional to the ratio of O2 delivery to O2 demand. In this manner, perfusion is matched to O2 demand and intercapillary distances are shortened so that O2 extraction is promoted, even at very low capillary PO2. In the case of anemic hypoxia, the normal to high PO2 may have only weakly stimulated chemoreceptors so that less sympathetic vasoconstrictor tone was present. Without vasoconstriction to work against, local regulation may have been ineffectual so that relative overperfusion of low O2 demand regions might have occurred. These possibilities will be tested by alpha-adrenergic blockers and agonists to alter sympathetic vasoconstrictor tone during anemic, stagnant, and hypoxic hypoxia. Regional differences in O2 extraction and venous PO2 will be sought as well as the regional contributions to whole body O2 deficit and mixed venous PO2. For example, venous PO2 is probably uniformly low in hypoxic hypoxia, but alpha-adrenergic blockage may cause it to rise and may cause regional differences to appear. In anemic hypoxia, norepinephrine infusion may cause regional differences in venous PO2 to diminish and O2 extraction may be increased. Similar approaches will be used in an isolated hindlimb preparation to delineate analagous alterations in regional tissue O2 delivery at the microvascular level.

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Research Project (R01)
Project #
5R01HL014693-16
Application #
3334837
Study Section
Experimental Cardiovascular Sciences Study Section (ECS)
Project Start
1978-01-01
Project End
1988-03-31
Budget Start
1987-01-01
Budget End
1988-03-31
Support Year
16
Fiscal Year
1987
Total Cost
Indirect Cost
Name
University of Alabama Birmingham
Department
Type
School of Medicine & Dentistry
DUNS #
004514360
City
Birmingham
State
AL
Country
United States
Zip Code
35294
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Reinhart, K; Bredle, D L; Chapler, C K et al. (1989) Muscle O2 uptake while perfused at constant pressure with normoxic blood during global hypoxia. Adv Exp Med Biol 248:729-34
Stork, R L; Dodd, S L; Chapler, C K et al. (1989) Regional hemodynamic responses to hypoxia and hypermetabolism in polycythemic dogs. J Appl Physiol 67:96-102
Bredle, D L; Samsel, R W; Schumacker, P T et al. (1989) Critical O2 delivery to skeletal muscle at high and low PO2 in endotoxemic dogs. J Appl Physiol 66:2553-8
Reinhart, K; Rudolph, T; Bredle, D L et al. (1989) Comparison of central-venous to mixed-venous oxygen saturation during changes in oxygen supply/demand. Chest 95:1216-21
Bredle, D L; Chapler, C K; Cain, S M (1989) Central reflex effects of hypoxia on muscle oxygenation. Adv Exp Med Biol 248:681-5
Bredle, D L; Chapler, C K; Cain, S M (1988) Metabolic and circulatory responses of normoxic skeletal muscle to whole-body hypoxia. J Appl Physiol 65:2063-8
Cain, S M; Chapler, C K (1988) Circulatory adjustments to anemic hypoxia. Adv Exp Med Biol 227:103-15
Stork, R L; Bredle, D L; Chapler, C K et al. (1988) Regional hemodynamic responses to hypoxia in polycythemic dogs. J Appl Physiol 65:2069-74
Bredle, D L; Bradley, W E; Chapler, C K et al. (1988) Muscle perfusion and oxygenation during local hyperoxia. J Appl Physiol 65:2057-62

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