Acute sympathetic activation blunts the hyperemic and vasodilatory response to passive leg movement.
Brady E HansonJoshua F LeeRyan S GartenZachary Barrett O'KeefeGwenael LayecBradley A RupleD Walter WrayRussell S RichardsonJoel D TrinityPublished in: Research square (2024)
Heightened muscle sympathetic nerve activity (MSNA) contributes to impaired vasodilatory capacity and vascular dysfunction associated with aging and cardiovascular disease. The contribution of elevated MSNA to the vasodilatory response during passive leg movement (PLM) has not been adequately addressed. This study sought to test the hypothesis that elevated MSNA diminishes the vasodilatory response to PLM in healthy young males (n = 11, 25 ± 2 year). Post exercise circulatory occlusion (PECO) following 2 min of isometric handgrip (HG) exercise performed at 25% (ExPECO 25%) and 40% (ExPECO 40%) of maximum voluntary contraction was used to incrementally engage the metaboreceptors and augment MSNA. Control trials were performed without PECO (ExCON 25% and ExCON 40%) to account for changes due to HG exercise. PLM was performed 2 min after the cessation of exercise and central and peripheral hemodynamics were assessed. MSNA was directly recorded by microneurography in the peroneal nerve (n = 8). Measures of MSNA (i.e., burst incidences) increased during ExPECO 25% (+ 15 ± 5 burst/100 bpm) and ExPECO 40% (+ 22 ± 4 burst/100 bpm) and returned to pre-HG levels during ExCON trials. Vasodilation, assessed by the change in leg vascular conductance during PLM, was reduced by 16% and 44% during ExPECO 25% and ExPECO 40%, respectively. These findings indicate that elevated MSNA attenuates the vasodilatory response to PLM and that the magnitude of reduction in vasodilation during PLM is graded in relation to the degree of sympathoexcitation.
Keyphrases
- high intensity
- resistance training
- cardiovascular disease
- physical activity
- high frequency
- fluorescent probe
- oxidative stress
- type diabetes
- liver failure
- skeletal muscle
- peripheral nerve
- aqueous solution
- respiratory failure
- intensive care unit
- extracorporeal membrane oxygenation
- living cells
- middle aged
- smooth muscle
- mechanical ventilation