Arterial compliance increases after moderate-intensity cycling

Exercise training elevates arterial compliance at rest, but the effects of acute exercise in this regard are unknown. This study investigated the effects of a single, 30-min bout of cycling exercise at 65% of maximal oxygen consumption on indexes of arterial compliance. Whole body arterial complianc...

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Bibliographic Details
Published in:American journal of physiology. Heart and circulatory physiology 1997-11, Vol.273 (5), p.H2186
Main Authors: Kingwell, Bronwyn A, Berry, Karen L, Cameron, James D, Jennings, Garry L, Dart, Anthony M
Format: Article
Language:English
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Summary:Exercise training elevates arterial compliance at rest, but the effects of acute exercise in this regard are unknown. This study investigated the effects of a single, 30-min bout of cycling exercise at 65% of maximal oxygen consumption on indexes of arterial compliance. Whole body arterial compliance determined noninvasively from simultaneous measurements of aortic flow and carotid pressure was elevated (66 ± 26%) at 0.5 h postexercise ( P = 0.04), followed by a decline to baseline 1 h after exercise. Aortic pulse-wave velocity, which is inversely related to compliance, was reduced (4 ± 2%; P = 0.04) at 0.5 h postexercise. Pulse-wave velocity in the leg decreased by 10 ± 4% at this time ( P = 0.01). Mean arterial pressure was unchanged; however, central systolic blood pressure was reduced postexercise ( P = 0.03). Cardiac output was elevated after exercise ( P = 0.007) via heart rate elevation ( P = 0.001), whereas stroke volume was unchanged. Total peripheral resistance was therefore reduced ( P = 0.01) and would be expected to contribute to an elevation in arterial compliance. In conclusion, a single bout of cycling exercise increased whole body arterial compliance by mechanisms that may relate to vasodilation.
ISSN:1522-1539