Abstract

Exaggerated blood pressure and diminished limb hemodynamics during exercise in patients with hypertension often are not resolved by antihypertensive medications. We hypothesized that, independent of antihypertensive medication status, dietary nitrate supplementation would increase limb blood flow, decrease mean arterial pressure (MAP), and increase limb vascular conductance during exercise in patients with hypertension. Patients with hypertension either abstained from (n = 14, Off-Meds) or continued (n = 12, On-Meds) antihypertensive medications. Within each group, patients consumed (crossover design) nitrate-rich or nitrate-depleted (placebo) beetroot juice for 3 days before performing handgrip (HG) and knee-extensor exercise (KE). Blood flow and MAP were measured using Doppler ultrasound and an automated monitor, respectively. Dietary nitrate increased plasma-[nitrite] Off-Meds and On-Meds. There were no significant effects of dietary nitrate on blood flow, MAP, or vascular conductance during HG in Off-Meds or On-Meds. For KE, dietary nitrate decreased MAP (means ± SD across all 3 exercise intensities, 118 ± 14 vs. 122 ± 14 mmHg, P = 0.024) and increased vascular conductance (26.2 ± 6.1 vs. 24.7 ± 7.0 mL/min/mmHg, P = 0.024), but did not affect blood flow for Off-Meds, with no effects On-Meds. Dietary nitrate-induced changes in blood flow (r = -0.67, P < 0.001), MAP (r = -0.43, P = 0.009), and vascular conductance (r = -0.64, P < 0.001) during KE, but only vascular conductance (r = -0.35, P = 0.039) during HG, were significantly related to the magnitude of placebo values, with no differentiation between groups. Thus, the effects of dietary nitrate on limb hemodynamics and MAP during exercise in patients with hypertension are dependent on the values at baseline, independent of antihypertensive medication status, and dependent on whether exercise was performed by the forearm or quadriceps.NEW & NOTEWORTHY Adverse hemodynamic responses to exercise in patients with hypertension, despite antihypertensive medication, indicate a sustained cardiovascular risk. The efficacy of dietary nitrate to improve limb vascular conductance during exercise was inversely dependent on the magnitude of exercising limb vascular conductance at baseline, rather than antihypertensive medication status. The effects of dietary nitrate on hemodynamics during exercise in patients with hypertension are dependent on the values at baseline and independent of antihypertensive medication status.

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