Alteration of humoral and peripheral vascular responses during graded exercise in heart failure

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Alteration of humoral and peripheral vascular responses during graded exercise in heart failure

Robert L. Hammond¹, Robert A. Augustyniak¹, Noreen F. Rossi², Karen Lapanowski¹, Joseph C. Dunbar¹, and Donal S. O'Leary¹

¹ Department of Physiology, Wayne State University School of Medicine, and ² Department of Medicine, John D. Dingell Veterans Affairs Medical Center, Detroit, Michigan 48201

We hypothesized that performance of exercise during heart failure (HF) would lead to hypoperfusion of active skeletal muscles,causing sympathoactivation at lower workloads and alteration ofthe normal hemodynamic and hormonal responses. We measured cardiacoutput, mean aortic and right atrial pressures, hindlimb and renalblood flow (RBF), arterial plasma norepinephrine (NE), plasmarenin activity (PRA), and plasma arginine vasopressin (AVP) inseven dogs during graded treadmill exercises and at rest. In controlexperiments, sympathetic activation at the higher workloads resultedin increased cardiac performance that matched the increased musclevascular conductance. There were also increases in NE, PRA, andAVP. Renal vascular conductance decreased during exercise, suchthat RBF remained at resting levels. After control experiments,HF was induced by rapid ventricular pacing, and the exercise protocolswere repeated. At rest in HF, cardiac performance was significantlydepressed and caused lower mean arterial pressure, despite increasedHR. Neurohumoral activation was evidenced by renal and hindlimbvasoconstriction and by elevated NE, PRA, and AVP levels, butit did not increase at the mildest workload. Beyond mild exercise,sympathoactivation increased, accompanied by progressive renalvasoconstriction, a fall in RBF, and very large increases of NE,PRA, and AVP. As exercise intensity increased, peripheral vasoconstrictionincreased, causing arterial pressure to rise to near normal levels,despite depressed cardiac output. However, combined with redirectionof RBF, this did not correct the perfusion deficit to the hindlimbs.We conclude that, in dogs with HF, the elevated sympathetic activityobserved at rest is not exacerbated by mild exercise. However,with heavier workloads, sympathoactivation begins at lower workloadsand becomes progressively exaggerated at higher workloads, thusaltering distribution of bloodflow.

cardiac output; regional blood flow; sympathetic nervous system; congestive heart failure

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