Central and peripheral cardiovascular responses after acute dietary nitrate supplementation in post-menopausal women

Abstract

The transition to menopause is accompanied by augmented cardiovascular disease risk, partially attributed to reduced nitric oxide (NO) bioavailability. Despite a lower arterial stiffness than men, postmenopausal women are susceptible to increased aortic pulsatile hemodynamic load because of greater pressure wave reflection and vascular dysfunction. Increasing bioavailable NO with dietary nitrate has shown promise to reduce aortic (aSBP) and brachial (bSBP) systolic pressure healthy postmenopausal women. However, there are limited reports comparing hypertensive (HTN) and normotensive (NTN) postmenopausal women regarding wave separation analysis and vascular function following dietary nitrate supplementation. This study investigated if acute dietary nitrate supplementation would improve aortic hemodynamics, wave reflection characteristics, vascular stiffness, and vasodilatory function. We hypothesized that dietary nitrate would lower pulse wave velocity in hypertensives, lower aortic and brachial blood pressures and forward and backward wave magnitude and increase microvascular, but not macrovascular function in both groups. Fourteen postmenopausal women (n=7 HTN; n=7 NTN) participated in a two-day randomized crossover study design with dietary nitrate (nitrate rich, NR) or a placebo control (NP). Central and peripheral hemodynamics and carotid-femoral pulse wave velocity (cfPWV) were performed with a SphygmoCOR Excel, simultaneous resting macro- and- microvascular function was assessed using flow-mediated vasodilation (FMD) and post occlusive reactive hyperemia (PORH) using near-infrared spectroscopy. aSBP was reduced significantly following NR supplement within groups (HTN: NP 126±2 NR 120±1mmHg) and NTN group (NP 110± 1 NR 104±3mmHg p<0.05). Forward pulse height HTN (NP 29±1.4 NR 26.3±1.4mmHg) NTN (NP 25.6±0.9 NR 24±2.7mmHg) and reflected pulse height HTN (NP 18.2±0.08 NR 17.2±0.4mmHg) NTN (NP 17.7±0.2 NR 15.7±1.07mmHg) were not different. cfPWV was faster in the HTN group and slowed with a NR supplement (HTN: NP 8.2±0.29 NR 7.4±0.31m/s; NTN NP 7.1±0.23 NR 6.6±0.62m/s p<0.05). A significant interaction for %FMD was found (HTN: NP 7.3±0.8 NR 6.2±0.8%; NTN NP 6.6±0.7 NR 9.4±0.7%). Further, we found no difference in the NIRS derived microvascular function measurements (HTN: NP 1.9±0.2 NR 1.7±0.3%/s; NTN NP 1.6±0.1 NR 1.4±0.2%/s p>0.05). These data indicate that dietary nitrate consumption led to a substantial reduction in aortic hemodynamics and reduced pulse wave velocity regardless of hypertension status. Interestingly, macrovascular, but not microvascular vasodilatory function was improved in the NTN women only. Dietary nitrate supplementation appears to have differential effects when considering HTN and NTN postmenopausal women. Supported with funds from The University of Wisconsin-La Crosse RSEL graduate grant. This is the full abstract presented at the American Physiology Summit 2024 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.