Affiliation:
1. Department of Geriatrics Shenzhen People's Hospital Shenzhen China
2. The Second Clinical Medical College Jinan University Shenzhen China
3. The First Affiliated Hospital Southern University of Science and Technology Shenzhen China
4. Hinda and Arthur Marcus Institute for Aging Research Hebrew SeniorLife Boston Massachusetts USA
5. Division of Gerontology Beth Israel Deaconess Medical Center Boston Massachusetts USA
6. Harvard Medical School Boston Massachusetts USA
7. Department of Neurology Shenzhen People's Hospital Shenzhen China
8. Shenzhen Bay Laboratory Shenzhen China
Abstract
AbstractThe fluctuations in resting‐state beat‐to‐beat blood pressure (BP) are physiologically complex, and the degree of such BP complexity is believed to reflect the multiscale regulation of this critical physiologic process. Hypertension (HTN), one common age‐related condition, is associated with altered BP regulation and diminished system responsiveness to perturbations such as orthostatic change. We thus aimed to characterize the impact of HTN on resting‐state BP complexity, as well as the relationship between BP complexity and both adaptive capacity and underlying vascular characteristics. We recruited 392 participants (age: 60–91 years), including 144 that were normotensive and 248 with HTN (140 controlled‐ and 108 uncontrolled‐HTN). Participants completed a 10‐min continuous finger BP recording during supine rest, then underwent measures of lying‐to‐standing BP change, arterial stiffness (i.e., brachial‐ankle pulse wave velocity), and endothelial function (i.e., flow‐mediated vasodilation). The complexity of supine beat‐to‐beat systolic (SBP) and diastolic (DBP) BP was quantified using multiscale entropy. Thirty participants with HTN (16 controlled‐HTN and 14 uncontrolled‐HTN) exhibited orthostatic hypotension. SBP and DBP complexity was greatest in normotensive participants, lower in those with controlled‐HTN, and lowest in those in uncontrolled‐HTN (p < 0.0005). Lower SBP and DBP complexity correlated with greater lying‐to‐standing decrease in SBP and DBP level (β = −0.33 to −0.19, p < 0.01), greater arterial stiffness (β = −0.35 to −0.18, p < 0.01), and worse endothelial function (β = 0.17–0.22, p < 0.01), both across all participants and within the control‐ and uncontrolled‐HTN groups. These results suggest that in older adults, BP complexity may capture the integrity of multiple interacting physiologic mechanisms that regulate BP and are important to cardiovascular health.
Funder
National Institute on Aging
Natural Science Foundation of Guangdong Province
Cited by
5 articles.
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