Abstract

The purpose of this study was to determine the relationship between changes in efferent muscle sympathetic nerve activity (MSNA) to the lower leg and calf vascular resistance (CVR) during isometric exercise in humans. We made intraneural (microneurographic) determinations of MSNA in the right leg (peroneal nerve) while simultaneously measuring calf blood flow to the left leg, arterial pressure, and heart rate in 10 subjects before (control), during, and after (recovery) isometric handgrip exercise performed for 2.5 min at 15, 25, and 35% of maximal voluntary contraction (MVC). Heart rate and arterial pressure increased above control within the initial 30 s of handgrip at all levels, and the magnitudes of the increases at end contraction were proportional to the intensity of the exercise. In general, neither MSNA nor CVR increased significantly above control levels during handgrip at 15% MVC. Similarly, neither variable increased above control during the initial 30 s of handgrip at 25 and 35% MVC; however, during the remainder of the contraction period, progressive, parallel increases were observed in MSNA and CVR (P less than 0.05). The correlation coefficients relating changes in MSNA to changes in CVR for the individual subjects averaged 0.63 +/- 0.07 (SE) (range 0.30-0.91) and 0.94 +/- 0.06 (range 0.80-0.99) for the 25 and 35% MVC levels, respectively. During recovery, both MSNA and CVR returned rapidly toward control levels. These findings demonstrate that muscle sympathetic nerve discharge and vascular resistance in the lower leg are tightly coupled during and after isometric arm exercise in humans. Furthermore, the exercise-induced adjustments in the two variables are both contraction intensity and time dependent.

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