Human Cardiovascular Adjustments to Rapid Changes in Skin Temperature during Exercise

In 11 normal men, central circulatory responses were measured while skin temperature was changed in a square-wave pattern during uninterrupted exercise (26% to 64% maximal oxygen consumption). Skin temperature was changed at 30-minute intervals, beginning at 32°C. On raising it to 38.2°C at low oxyg...

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Published in	Circulation research Vol. 24; no. 5; pp. 711 - 724
Main Authors	Rowell, Loring B, Murray, John A, Brengelmann, George L, Kraning, Kenneth K
Format	Journal Article
Language	English
Published	United States American Heart Association, Inc 01.05.1969
Subjects	Adult Blood Pressure Body Temperature Cardiac Output Heart Function Tests Heart Rate Hemodynamics Humans Male Oxygen Consumption Physical Exertion Skin Space life sciences Vascular Resistance
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Abstract	In 11 normal men, central circulatory responses were measured while skin temperature was changed in a square-wave pattern during uninterrupted exercise (26% to 64% maximal oxygen consumption). Skin temperature was changed at 30-minute intervals, beginning at 32°C. On raising it to 38.2°C at low oxygen consumption (V˙o2), cardiac output increased 2.5 liters/min, and central blood volume, aortic mean pressure, and stroke volume fell (7%, 7%, and 11%, respectively). Right atrial mean pressure fell 2.2 and 2.3 mm Hg during control and heating periods, respectively. All variables returned to control levels when skin temperature was reduced toward 26.9°C. Raising it to 40°C reproduced these changes with a more clear-cut drop in right atrial mean pressure. Results indicated reduced peripheral venous tone and cutaneous pooling of blood during heating and rapid reversal on cooling. On raising skin temperature to 38.7°C at high V˙o2, cardiac output increased 19% (3.1 liters/min), stroke volume decreased 14%, and central blood volume rose slightly. Aortic mean pressure fell during the control period and was maintained or rose during heating periods. On cooling, central blood volume and stroke volume rose, cardiac output remained elevated, and aortic mean pressure fell. Increases in cardiac output during heating were related to skin temperature and not to V˙o2 or body temperature. At high V˙o2, circulatory adjustments favor metabolic rather than thermoregulatory demands.
AbstractList	In 11 normal men, central circulatory responses were measured while skin temperature was changed in a square-wave pattern during uninterrupted exercise (26% to 64% maximal oxygen consumption). Skin temperature was changed at 30-minute intervals, beginning at 32°C. On raising it to 38.2°C at low oxygen consumption (V · o 2 ), cardiac output increased 2.5 liters/min, and central blood volume, aortic mean pressure, and stroke volume fell (7%, 7%, and 11%, respectively). Right atrial mean pressure fell 2.2 and 2.3 mm Hg during control and heating periods, respectively. All variables returned to control levels when skin temperature was reduced toward 26.9°C. Raising it to 40°C reproduced these changes with a more clear-cut drop in right atrial mean pressure. Results indicated reduced peripheral venous tone and cutaneous pooling of blood during heating and rapid reversal on cooling. On raising skin temperature to 38.7°C at high V · o 2 , cardiac output increased 19% (3.1 liters/min), stroke volume decreased 14%, and central blood volume rose slightly. Aortic mean pressure fell during the control period and was maintained or rose during heating periods. On cooling, central blood volume and stroke volume rose, cardiac output remained elevated, and aortic mean pressure fell. Increases in cardiac output during heating were related to skin temperature and not to V · o 2 or body temperature. At high V · o 2 , circulatory adjustments favor metabolic rather than thermoregulatory demands. In 11 normal men, central circulatory responses were measured while skin temperature was changed in a square-wave pattern during uninterrupted exercise (26% to 64% maximal oxygen consumption). Skin temperature was changed at 30-minute intervals, beginning at 32°C. On raising it to 38.2°C at low oxygen consumption (V˙o2), cardiac output increased 2.5 liters/min, and central blood volume, aortic mean pressure, and stroke volume fell (7%, 7%, and 11%, respectively). Right atrial mean pressure fell 2.2 and 2.3 mm Hg during control and heating periods, respectively. All variables returned to control levels when skin temperature was reduced toward 26.9°C. Raising it to 40°C reproduced these changes with a more clear-cut drop in right atrial mean pressure. Results indicated reduced peripheral venous tone and cutaneous pooling of blood during heating and rapid reversal on cooling. On raising skin temperature to 38.7°C at high V˙o2, cardiac output increased 19% (3.1 liters/min), stroke volume decreased 14%, and central blood volume rose slightly. Aortic mean pressure fell during the control period and was maintained or rose during heating periods. On cooling, central blood volume and stroke volume rose, cardiac output remained elevated, and aortic mean pressure fell. Increases in cardiac output during heating were related to skin temperature and not to V˙o2 or body temperature. At high V˙o2, circulatory adjustments favor metabolic rather than thermoregulatory demands.
Author	Brengelmann, George L Rowell, Loring B Kraning, Kenneth K Murray, John A
AuthorAffiliation	Departments of Medicine, Physiology, and Biophysics, University of Washington School of Medicine and School of Nursing, Seattle, Washington 98105
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BackLink	https://www.ncbi.nlm.nih.gov/pubmed/5770258$$D View this record in MEDLINE/PubMed
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SubjectTerms	Adult Blood Pressure Body Temperature Cardiac Output Heart Function Tests Heart Rate Hemodynamics Humans Male Oxygen Consumption Physical Exertion Skin Space life sciences Vascular Resistance
Title	Human Cardiovascular Adjustments to Rapid Changes in Skin Temperature during Exercise
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