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1 Department of Kinesiology, Kansas State University, Manhattan, Kansas, USA
2 Department of Exercise Science and Physiology, Hiroshima Prefectural Women's University, Hiroshima, Japan
3 Kinesiology, University of Toledo, Toledo, Ohio, USA
4 Applied Physiology Laboratory, Kobe Design University, Kobe, Japan
* To whom correspondence should be addressed. E-mail: tbarsto{at}ksu.edu.
To test for evidence of a muscle pump effect during steady state upright submaximal knee extension exercise, seven male subjects performed seven discontinuous, incremental exercise stages (3 min/stage) at 40 contractions/min, at work rates ranging to 60-75% peak aerobic work rate. Cardiac-cycle-averaged muscle blood flow (MBF) responses and contraction-averaged blood flow responses were calculated from continuous Doppler sonography of the femoral artery. Net contribution of the muscle pump was estimated by the difference between mean exercise blood flow (MBFM) and early recovery blood flow (MBFR). MBFM rose in proportion with increases in power output with no significant difference between the two methods of calculating MBF. For stages 1 and 5, MBFM was greater than MBFR; for all others, MBFM was similar to MBFR. For the lighter work rates (stages 1-4), there was no significant difference between exercise and early recovery mean arterial pressure (MAP). During stages 5 -7 MAP was significantly higher during exercise and fell significantly early in recovery. From these results we conclude that: a) at the lightest work rate, the muscle pump had a net positive effect on mean exercise blood flow, b) during steady state moderate exercise (stages 2-4) the net effect of rhythmic muscle contraction was neutral (i.e., the impedance due to muscle contraction was exactly offset by the potential enhancement during relaxation), and c) at the three higher work rates tested (stages 5-7), any enhancement to flow during relaxation was insufficient to fully compensate for the contraction-induced impedance to muscle perfusion. This necessitated a higher MAP to achieve the mean exercise blood flow.
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