While evidence suggests there is indeed a relationship between arterial stiffness and changes in brain structure and function cross-sectionally, the longitudinal relationship between arterial stiffness and changes in brain structure and function is unclear. Also unclear is whether a regional effect of arterial stiffness on brain structure exists, or if the effect is homogenous across brain regions. Using a healthy cohort of the UK Biobank study (N = 1858, meanSD: 61 7 years), we investigated the longitudinal association between changes in arterial stiffness index (ASI) and brain structure (grey matter cortical thickness, whole brain grey matter volume, white matter hyperintensity volume) and function (cognitive performance in 6 tests) over 2.5 1 years. We also examined the association between baseline ASI and all structural and functional brain outcomes 8-11 years post-baseline (N = 630). Prior to post-hoc correction, we observed a significant effect of changes in ASI over 2.5 1 years on grey matter cortical thickness in 11 brain regions contributing to reductions between 0.0004-0.0024mm annually, but none of the 11 regions remained significant post-correction. Following correction there was also no effect of changes in ASI on whole brain grey matter volume (p = 0.76), white matter hyperintensity volume (p = 0.84), or cognitive performance in the domains of interest. Baseline ASI was not associated with regional grey matter cortical thickness, white matter hyperintensity volume, or cognitive function, but did have a significant negative association with whole brain grey matter volume 8.5 1.05 (p = 0.015) years later and 11 1.02 (p = 0.03) years later. Our findings suggest that taken with the effect of age, elevations in ASI may have an additive effect to accelerate changes in brain structure beyond the range that is to be expected as a part of normal aging. Our findings also suggest the relationship between ASI and reductions in whole brain grey matter volume may require long-term exposure to elevations in arterial stiffness in otherwise healthy older adults. / Thesis / Master of Science in Kinesiology / Arterial stiffening both accompanies the normal aging process and can progress due to acquired health conditions. As arteries begin to stiffen the ability to buffer high pressure blood flow is impaired and can put microvasculature at risk of damage. Microvascular damage in the brain can disrupt blood and subsequent oxygen delivery to the brain. When delivery to the brain does not meet the metabolic demand, changes in brain structure brain can occur. Changes in brain structure are associated with impaired brain function, as well as potentially accelerating the progression of neurological diseases. What remains unclear is whether arterial stiffness impacts brain structure differently across regions or all regions homogenously. The purpose of this thesis was to examine the relationship between arterial stiffness and structural and functional changes in the brain over time (objective 1: 2-5 years; objective 2: 8-11 years). Our observations suggest that the progression of arterial stiffness had an effect that was equivalent to approximately 30% of the rate of grey matter tissue loss associated with normal healthy aging (~0.25% reduction in grey matter per year). We found no effect of changes in arterial stiffness on the progression of total grey matter volume, white matter lesions or brain function. We did observe a significant negative relationship between arterial stiffness at baseline and total grey matter volume 8-11 years later. We found no relationship between baseline arterial stiffness and brain structure or function 8–11-years post-baseline. Taken with the effects of normal aging, the loss of tissue in select brain regions associated with changes in arterial stiffness may result in grey matter reductions beyond the range associated with what is considered healthy or normal aging. The association of arterial stiffness and total grey matter volume 8-11 years later suggests that changes in whole brain structure are the product of long-term exposure to arterial stiffness.
Identifer | oai:union.ndltd.org:mcmaster.ca/oai:macsphere.mcmaster.ca:11375/27918 |
Date | 11 1900 |
Creators | Allison, Elric Y. |
Contributors | Al-Khazraji, Baraa K., Kinesiology |
Source Sets | McMaster University |
Language | English |
Detected Language | English |
Type | Thesis |
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