Melissa A H Witman1, Stephen J Ives2, Joel D Trinity3, H Jonathan Groot4, Josef Stehlik5, Russell S Richardson6. 1. Geriatric Research, Education, and Clinical Center, George E. Whalen VA Medical Center, Salt Lake City, UT, United States; Department of Internal Medicine, Division of Geriatrics, University of Utah School of Medicine, Salt Lake City, UT, United States. Electronic address: melissa.witman@utah.edu. 2. Department of Health and Exercise Sciences, Skidmore College, Saratoga Springs, NY, United States. 3. Geriatric Research, Education, and Clinical Center, George E. Whalen VA Medical Center, Salt Lake City, UT, United States; Department of Internal Medicine, Division of Geriatrics, University of Utah School of Medicine, Salt Lake City, UT, United States. 4. Geriatric Research, Education, and Clinical Center, George E. Whalen VA Medical Center, Salt Lake City, UT, United States; Department of Exercise and Sport Science, University of Utah, Salt Lake City, UT, United States. 5. Department of Internal Medicine, Division of Cardiology, George E. Whalen VA Medical Center, University of Utah Medical Center, University of Utah School of Medicine, Salt Lake City, UT, United States. 6. Geriatric Research, Education, and Clinical Center, George E. Whalen VA Medical Center, Salt Lake City, UT, United States; Department of Internal Medicine, Division of Geriatrics, University of Utah School of Medicine, Salt Lake City, UT, United States; Department of Exercise and Sport Science, University of Utah, Salt Lake City, UT, United States.
Abstract
BACKGROUND: The complex pathophysiology of heart failure (HF) creates a challenging paradigm to differentiate the role of central and peripheral hemodynamic dysfunction during conventional exercise. Adopting a novel reductionist approach with potential clinical relevance, we studied the central and peripheral contributors to both continuous and single passive leg movement (PLM)-induced hyperemia in 14 HF patients with reduced ejection fraction (HFrEF) and 13 controls. METHODS: Heart rate (HR), stroke volume (SV), cardiac output (CO), mean arterial pressure (MAP), and femoral artery blood flow (FBF) were recorded during PLM. RESULTS: The FBF response (area under the curve; AUC) to 60s of continuous PLM was attenuated in the HFrEF (25±15ml AUC) compared to controls (199±34ml AUC) as were peak changes from baseline for FBF, leg vascular conductance (LVC), CO, and HR. During single PLM, increases in CO and HR were smaller and no longer different between groups, supporting the use of this modality to assess groups with disparate central hemodynamics. Interestingly, single PLM-induced hyperemia, likely predominantly driven by flow-mediated vasodilation due to minimal vessel deformation, was essentially nonexistent in the HFrEF (-9±10ml AUC) in contrast to the controls (43±25ml AUC). CONCLUSIONS: These data fail to support a HFrEF-associated exaggeration in the mechanoreceptor driven component of the exercise pressor response. In fact, by exhibiting limited central hemodynamic responses compared to the controls, the observed attenuation in movement-induced FBF in HFrEF appears largely due to peripheral vascular dysfunction, particularly flow-mediated vasodilation. Published by Elsevier Ireland Ltd.
BACKGROUND: The complex pathophysiology of heart failure (HF) creates a challenging paradigm to differentiate the role of central and peripheral hemodynamic dysfunction during conventional exercise. Adopting a novel reductionist approach with potential clinical relevance, we studied the central and peripheral contributors to both continuous and single passive leg movement (PLM)-induced hyperemia in 14 HFpatients with reduced ejection fraction (HFrEF) and 13 controls. METHODS: Heart rate (HR), stroke volume (SV), cardiac output (CO), mean arterial pressure (MAP), and femoral artery blood flow (FBF) were recorded during PLM. RESULTS: The FBF response (area under the curve; AUC) to 60s of continuous PLM was attenuated in the HFrEF (25±15ml AUC) compared to controls (199±34ml AUC) as were peak changes from baseline for FBF, leg vascular conductance (LVC), CO, and HR. During single PLM, increases in CO and HR were smaller and no longer different between groups, supporting the use of this modality to assess groups with disparate central hemodynamics. Interestingly, single PLM-induced hyperemia, likely predominantly driven by flow-mediated vasodilation due to minimal vessel deformation, was essentially nonexistent in the HFrEF (-9±10ml AUC) in contrast to the controls (43±25ml AUC). CONCLUSIONS: These data fail to support a HFrEF-associated exaggeration in the mechanoreceptor driven component of the exercise pressor response. In fact, by exhibiting limited central hemodynamic responses compared to the controls, the observed attenuation in movement-induced FBF in HFrEF appears largely due to peripheral vascular dysfunction, particularly flow-mediated vasodilation. Published by Elsevier Ireland Ltd.
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