Cerebral Arterial Pulsatility and Global White Matter Microstructure Impact Spatial Working Memory in Older Adults With and Without Cardiovascular Risk Factors

Cerebral Arterial Pulsatility and Global White Matter Microstructure Impact Spatial Working Memory in Older Adults With and Without Cardiovascular Risk Factors

Aging is associated with an increased prevalence of vascular health conditions that are linked to a disruption in the cerebral vasculature and white matter microstructural organization. In people with cardiovascular risk factors, increased cerebral arterial pulsatility is associated with poorer whit...

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Main Authors: Alexander C. Conley, Frini Karayanidis, Todd A. D. Jolly, Meng-Heng Yang, Shulan Hsieh
Format: Article
Language:English
Published: Frontiers Media S.A. 2020-08-01
Series:Frontiers in Aging Neuroscience
Subjects:
aging
working memory
DWI
arterial pulsatility
cardiovascular risk factors
Online Access:https://www.frontiersin.org/article/10.3389/fnagi.2020.00245/full
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spelling doaj-f08865f78f3d44f583087db7dabae2b92020-11-25T03:55:17ZengFrontiers Media S.A.Frontiers in Aging Neuroscience1663-43652020-08-011210.3389/fnagi.2020.00245554021Cerebral Arterial Pulsatility and Global White Matter Microstructure Impact Spatial Working Memory in Older Adults With and Without Cardiovascular Risk FactorsAlexander C. Conley0Frini Karayanidis1Frini Karayanidis2Frini Karayanidis3Todd A. D. Jolly4Todd A. D. Jolly5Todd A. D. Jolly6Meng-Heng Yang7Meng-Heng Yang8Meng-Heng Yang9Shulan Hsieh10Shulan Hsieh11Shulan Hsieh12Department of Psychiatry, Center for Cognitive Medicine, Vanderbilt University Medical Center, Nashville, TN, United StatesFunctional Neuroimaging Laboratory, School of Psychology, Faculty of Science, University of Newcastle, Newcastle, NSW, AustraliaPriority Research Centre for Stroke and Brain Injury, University of Newcastle, Newcastle, NSW, AustraliaHunter Medical Research Institute, Newcastle, NSW, AustraliaFunctional Neuroimaging Laboratory, School of Psychology, Faculty of Science, University of Newcastle, Newcastle, NSW, AustraliaPriority Research Centre for Stroke and Brain Injury, University of Newcastle, Newcastle, NSW, AustraliaHunter Medical Research Institute, Newcastle, NSW, AustraliaDepartment of Psychology, National Cheng Kung University, Tainan, TaiwanInstitute of Allied Health Sciences, National Cheng Kung University, Tainan, TaiwanDepartment and Institute of Public health, National Cheng Kung University, Tainan, TaiwanDepartment of Psychology, National Cheng Kung University, Tainan, TaiwanInstitute of Allied Health Sciences, National Cheng Kung University, Tainan, TaiwanDepartment and Institute of Public health, National Cheng Kung University, Tainan, TaiwanAging is associated with an increased prevalence of vascular health conditions that are linked to a disruption in the cerebral vasculature and white matter microstructural organization. In people with cardiovascular risk factors, increased cerebral arterial pulsatility is associated with poorer white matter microstructural organization and cognitive functioning. This study examines the relationship among arterial pulsatility, white matter microstructural organization, and cognitive ability in a healthy adult lifespan sample. One hundred and eighty-nine adults were divided into a younger adult (<50 years, n = 97) and older adult (>50 years, n = 92). The latter were further subdivided into two subgroups with (CV+, n = 25) and without (CV−, n = 67) cardiovascular risk factors. Arterial pulsatility was measured using cardiac-gated phase-contrast flow quantification sequence and three indexes of whole-brain white matter microstructural organization [i.e., fractional anisotropy (FA), radial diffusivity (RaD), mean diffusivity (MD)] were derived from diffusion-weighted imaging (DWI). Cognitive ability was assessed using global cognitive functioning (MoCA) and a measure of working memory [sensitivity (d′) from a 2-back task]. Neither the whole group analysis nor the younger adult group showed an association between measures of arterial pulsatility, global white matter microstructural organization, and cognition. In older adults, higher MD and RaD were associated with increased arterial pulsatility and poorer working memory performance. The indirect pathway from arterial pulsatility to working memory performance via both MD and RaD measures was significant in this group. Interestingly, a comparison of CV+ and CV− subgroups showed that this mediating relationship was only evident in older adults with at least one CV risk factor. These findings are consistent with cardiovascular risk factors as underlying arterial, white matter, and cognitive decline in cognitively normal older adults.https://www.frontiersin.org/article/10.3389/fnagi.2020.00245/fullagingworking memoryDWIarterial pulsatilitycardiovascular risk factors
collection DOAJ
language English
format Article
sources DOAJ
author Alexander C. Conley
Frini Karayanidis
Frini Karayanidis
Frini Karayanidis
Todd A. D. Jolly
Todd A. D. Jolly
Todd A. D. Jolly
Meng-Heng Yang
Meng-Heng Yang
Meng-Heng Yang
Shulan Hsieh
Shulan Hsieh
Shulan Hsieh
spellingShingle Alexander C. Conley
Frini Karayanidis
Frini Karayanidis
Frini Karayanidis
Todd A. D. Jolly
Todd A. D. Jolly
Todd A. D. Jolly
Meng-Heng Yang
Meng-Heng Yang
Meng-Heng Yang
Shulan Hsieh
Shulan Hsieh
Shulan Hsieh
Cerebral Arterial Pulsatility and Global White Matter Microstructure Impact Spatial Working Memory in Older Adults With and Without Cardiovascular Risk Factors
Frontiers in Aging Neuroscience
aging
working memory
DWI
arterial pulsatility
cardiovascular risk factors
author_facet Alexander C. Conley
Frini Karayanidis
Frini Karayanidis
Frini Karayanidis
Todd A. D. Jolly
Todd A. D. Jolly
Todd A. D. Jolly
Meng-Heng Yang
Meng-Heng Yang
Meng-Heng Yang
Shulan Hsieh
Shulan Hsieh
Shulan Hsieh
author_sort Alexander C. Conley
title Cerebral Arterial Pulsatility and Global White Matter Microstructure Impact Spatial Working Memory in Older Adults With and Without Cardiovascular Risk Factors
title_short Cerebral Arterial Pulsatility and Global White Matter Microstructure Impact Spatial Working Memory in Older Adults With and Without Cardiovascular Risk Factors
title_full Cerebral Arterial Pulsatility and Global White Matter Microstructure Impact Spatial Working Memory in Older Adults With and Without Cardiovascular Risk Factors
title_fullStr Cerebral Arterial Pulsatility and Global White Matter Microstructure Impact Spatial Working Memory in Older Adults With and Without Cardiovascular Risk Factors
title_full_unstemmed Cerebral Arterial Pulsatility and Global White Matter Microstructure Impact Spatial Working Memory in Older Adults With and Without Cardiovascular Risk Factors
title_sort cerebral arterial pulsatility and global white matter microstructure impact spatial working memory in older adults with and without cardiovascular risk factors
publisher Frontiers Media S.A.
series Frontiers in Aging Neuroscience
issn 1663-4365
publishDate 2020-08-01
description Aging is associated with an increased prevalence of vascular health conditions that are linked to a disruption in the cerebral vasculature and white matter microstructural organization. In people with cardiovascular risk factors, increased cerebral arterial pulsatility is associated with poorer white matter microstructural organization and cognitive functioning. This study examines the relationship among arterial pulsatility, white matter microstructural organization, and cognitive ability in a healthy adult lifespan sample. One hundred and eighty-nine adults were divided into a younger adult (<50 years, n = 97) and older adult (>50 years, n = 92). The latter were further subdivided into two subgroups with (CV+, n = 25) and without (CV−, n = 67) cardiovascular risk factors. Arterial pulsatility was measured using cardiac-gated phase-contrast flow quantification sequence and three indexes of whole-brain white matter microstructural organization [i.e., fractional anisotropy (FA), radial diffusivity (RaD), mean diffusivity (MD)] were derived from diffusion-weighted imaging (DWI). Cognitive ability was assessed using global cognitive functioning (MoCA) and a measure of working memory [sensitivity (d′) from a 2-back task]. Neither the whole group analysis nor the younger adult group showed an association between measures of arterial pulsatility, global white matter microstructural organization, and cognition. In older adults, higher MD and RaD were associated with increased arterial pulsatility and poorer working memory performance. The indirect pathway from arterial pulsatility to working memory performance via both MD and RaD measures was significant in this group. Interestingly, a comparison of CV+ and CV− subgroups showed that this mediating relationship was only evident in older adults with at least one CV risk factor. These findings are consistent with cardiovascular risk factors as underlying arterial, white matter, and cognitive decline in cognitively normal older adults.
topic aging
working memory
DWI
arterial pulsatility
cardiovascular risk factors
url https://www.frontiersin.org/article/10.3389/fnagi.2020.00245/full
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