Investigating the protective role of heart rate variability on the effects of aging on cerebrovascular function as estimated by optical pulse parameters
Islam, Samia S
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Permalink
https://hdl.handle.net/2142/132707
Description
Title
Investigating the protective role of heart rate variability on the effects of aging on cerebrovascular function as estimated by optical pulse parameters
Author(s)
Islam, Samia S
Issue Date
2025-12-10
Director of Research (if dissertation) or Advisor (if thesis)
Fabiani, Monica
Committee Member(s)
Gratton, Gabriele
Department of Study
Psychology
Discipline
Psychology
Degree Granting Institution
University of Illinois Urbana-Champaign
Degree Name
M.S.
Degree Level
Thesis
Keyword(s)
diffuse optical tomography (DOT)
pulse-DOT
reactivity
heart rate variability (HRV)
within-individual differences
Abstract
Brain health (or lack thereof) has been linked to both long-term phenomena, such as arterial stiffening, and the cumulated effects of short-term phenomena, such as resting-state heart rate variability (rsHRV). rsHRV reflects the balance between parasympathetic (vagal) and sympathetic input to the heart and is often altered in aging because of a reduced vagal role resulting in reduced cerebrovascular reactivity and, indirectly, brain tissue damage. Here we investigate these relationships using a novel approach to studying cerebrovascular reactivity based on single-trial measures of the cerebral arterial pulse measured with diffuse optical tomography (pulse-DOT) following long and short inter-beat intervals (IBIs). Data were obtained from a sample of 141 normal individuals (age range 25-75 years), in which both EKG and pulse-DOT (measured from the entire cortical mantle) were recorded for 8-10 minutes during resting-state conditions. Results indicate that pulse-DOT parameters were significantly affected by long-term factors such as age and fitness, but also, albeit to a much smaller extent, by short-term phenomena, such as the duration of the previous IBI. rsHRV mediates some of the negative effects of age on vascular function, suggesting a protective effect of the vagal system on the cerebrovasculature. However, not all indices of cerebrovascular function where moderated by rsHRV, perhaps suggesting the possible presence of other types of age effects on the brain’s vasculature. These findings can improve our understanding of how rsHRV helps protect the brain from the negative effects of aging.
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