Changes in cerebral arterial pulsatility and hippocampal volume: a transcranial doppler ultrasonography study

Matt L. Miller; Paolo Ghisletta; Bradley S. Jacobs; Cheryl L. Dahle; Naftali Raz

doi:10.1016/j.neurobiolaging.2021.08.014

Changes in cerebral arterial pulsatility and hippocampal volume: a transcranial doppler ultrasonography study

Matt L. Miller
, Paolo Ghisletta
, Bradley S. Jacobs
, Cheryl L. Dahle
, Naftali Raz

Psychology

University of Geneva
Swiss National Centre of Competence in Research LIVES
UniDistance Suisse
Wright State University
Wayne State University

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

The physiological mechanisms of age-related cognitive decline remain unclear, in no small part due to the lack of longitudinal studies. Extant longitudinal studies focused on gross neuroanatomy and diffusion properties of the brain. We present herein a longitudinal analysis of changes in arterial pulsatility – a proxy for arterial stiffness – in two major cerebral arteries, middle cerebral and vertebral. We found that pulsatility increased in some participants over a relatively short period and these increases were associated with hippocampal shrinkage. Higher baseline pulsatility was associated with lower scores on a test of fluid intelligence at follow-up. This is the first longitudinal evidence of an association between increase in cerebral arterial stiffness over time and regional shrinkage.

Original language	English
Pages (from-to)	110-121
Number of pages	12
Journal	Neurobiology of Aging
Volume	108
DOIs	https://doi.org/10.1016/j.neurobiolaging.2021.08.014
State	Published - Dec 2021

Keywords

Arterial stiffness
Cerebrovascular health
Cognitive aging
Fluid intelligence
Longitudinal growth curves
Transcranial Doppler

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10.1016/j.neurobiolaging.2021.08.014

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title = "Changes in cerebral arterial pulsatility and hippocampal volume: a transcranial doppler ultrasonography study",

abstract = "The physiological mechanisms of age-related cognitive decline remain unclear, in no small part due to the lack of longitudinal studies. Extant longitudinal studies focused on gross neuroanatomy and diffusion properties of the brain. We present herein a longitudinal analysis of changes in arterial pulsatility – a proxy for arterial stiffness – in two major cerebral arteries, middle cerebral and vertebral. We found that pulsatility increased in some participants over a relatively short period and these increases were associated with hippocampal shrinkage. Higher baseline pulsatility was associated with lower scores on a test of fluid intelligence at follow-up. This is the first longitudinal evidence of an association between increase in cerebral arterial stiffness over time and regional shrinkage.",

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AU - Miller, Matt L.

AU - Ghisletta, Paolo

AU - Jacobs, Bradley S.

AU - Dahle, Cheryl L.

AU - Raz, Naftali

PY - 2021/12

Y1 - 2021/12

N2 - The physiological mechanisms of age-related cognitive decline remain unclear, in no small part due to the lack of longitudinal studies. Extant longitudinal studies focused on gross neuroanatomy and diffusion properties of the brain. We present herein a longitudinal analysis of changes in arterial pulsatility – a proxy for arterial stiffness – in two major cerebral arteries, middle cerebral and vertebral. We found that pulsatility increased in some participants over a relatively short period and these increases were associated with hippocampal shrinkage. Higher baseline pulsatility was associated with lower scores on a test of fluid intelligence at follow-up. This is the first longitudinal evidence of an association between increase in cerebral arterial stiffness over time and regional shrinkage.

AB - The physiological mechanisms of age-related cognitive decline remain unclear, in no small part due to the lack of longitudinal studies. Extant longitudinal studies focused on gross neuroanatomy and diffusion properties of the brain. We present herein a longitudinal analysis of changes in arterial pulsatility – a proxy for arterial stiffness – in two major cerebral arteries, middle cerebral and vertebral. We found that pulsatility increased in some participants over a relatively short period and these increases were associated with hippocampal shrinkage. Higher baseline pulsatility was associated with lower scores on a test of fluid intelligence at follow-up. This is the first longitudinal evidence of an association between increase in cerebral arterial stiffness over time and regional shrinkage.

KW - Arterial stiffness

KW - Cerebrovascular health

KW - Cognitive aging

KW - Fluid intelligence

KW - Longitudinal growth curves

KW - Transcranial Doppler

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M3 - Article

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AN - SCOPUS:85115310227

SN - 0197-4580

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SP - 110

EP - 121

JO - Neurobiology of Aging

JF - Neurobiology of Aging

ER -

Changes in cerebral arterial pulsatility and hippocampal volume: a transcranial doppler ultrasonography study

Abstract

Keywords

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