TY - JOUR
T1 - Central and peripheral modulation of exercise pressor reflex sensitivity after nonfatiguing work
AU - Stavres, Jon
AU - Luck, J. Carter
AU - Ducrocq, Guillaume P.
AU - Cauffman, Aimee E.
AU - Pai, Samuel
AU - Sinoway, Lawrence I.
N1 - Funding Information:
This study was supported by National Institutes of Health Grant P01 HL134609 (to L. I. Sinoway) and UL1 Grant TR002014 (to L. I. Sinoway).
Publisher Copyright:
© 2020 the American Physiological Society.
PY - 2020/11/5
Y1 - 2020/11/5
N2 - Autonomic blood pressure control is fundamentally altered during a single bout of exercise, as evidenced by the downward resetting of the baroreflex following exercise (postexercise hypotension). However, it is unclear if an acute bout of exercise is also associated with a change in the sensitivity of the exercise pressor response to a controlled stimulus, such as a static contraction. This study tested the hypothesis that the blood pressure response to a controlled static contraction would be attenuated after unilateral cycling of the contralateral (opposite) leg, but preserved after cycling of the ipsilateral (same) leg. To test this, the blood pressure response to 90 s of isometric plantar flexion [50% maximal voluntary contraction (MVC)] was compared before and after 20 min of contralateral and ipsilateral single-leg cycling at 20% peak oxygen consumption and rest (control) in 10 healthy subjects (three males and seven females). The mean arterial pressure response was significantly attenuated after contralateral single-leg cycling (+9.8 ± 7.5% ΔmmHg vs. +6.7 ± 6.6% ΔmmHg pre and postexercise, respectively, P = 0.04) and rest (+9.0 ± 7.5% ΔmmHg vs. +6.6 ± 5.2% ΔmmHg pre and postexercise, respectively, P = 0.03). In contrast, the pressor response nonsignificantly increased following ipsilateral single-leg cycling (+5.5 ± 5.2% ΔmmHg vs. +8.9 ± 7.2% ΔmmHg pre and postexercise, respectively, P = 0.08). The heart rate, leg blood flow, and leg conductance responses to plantar flexion were not affected by any condition (P ≥ 0.12). These results are consistent with the notion that peripheral, but not central mechanisms promote exercise pressor reflex sensitivity after exercise.
AB - Autonomic blood pressure control is fundamentally altered during a single bout of exercise, as evidenced by the downward resetting of the baroreflex following exercise (postexercise hypotension). However, it is unclear if an acute bout of exercise is also associated with a change in the sensitivity of the exercise pressor response to a controlled stimulus, such as a static contraction. This study tested the hypothesis that the blood pressure response to a controlled static contraction would be attenuated after unilateral cycling of the contralateral (opposite) leg, but preserved after cycling of the ipsilateral (same) leg. To test this, the blood pressure response to 90 s of isometric plantar flexion [50% maximal voluntary contraction (MVC)] was compared before and after 20 min of contralateral and ipsilateral single-leg cycling at 20% peak oxygen consumption and rest (control) in 10 healthy subjects (three males and seven females). The mean arterial pressure response was significantly attenuated after contralateral single-leg cycling (+9.8 ± 7.5% ΔmmHg vs. +6.7 ± 6.6% ΔmmHg pre and postexercise, respectively, P = 0.04) and rest (+9.0 ± 7.5% ΔmmHg vs. +6.6 ± 5.2% ΔmmHg pre and postexercise, respectively, P = 0.03). In contrast, the pressor response nonsignificantly increased following ipsilateral single-leg cycling (+5.5 ± 5.2% ΔmmHg vs. +8.9 ± 7.2% ΔmmHg pre and postexercise, respectively, P = 0.08). The heart rate, leg blood flow, and leg conductance responses to plantar flexion were not affected by any condition (P ≥ 0.12). These results are consistent with the notion that peripheral, but not central mechanisms promote exercise pressor reflex sensitivity after exercise.
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U2 - 10.1152/AJPREGU.00127.2020
DO - 10.1152/AJPREGU.00127.2020
M3 - Article
C2 - 32877237
AN - SCOPUS:85095862009
SN - 0363-6119
VL - 319
SP - R575-R583
JO - American Journal of Physiology - Regulatory Integrative and Comparative Physiology
JF - American Journal of Physiology - Regulatory Integrative and Comparative Physiology
IS - 5
ER -