4.2 Biological and Vascular Contributors to Cerebral Pulsatility and Pulsatile Damping
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- 10.2991/artres.k.191224.023How to use a DOI?
- Abstract
Cerebral pulsatility is an emerging contributor to brain health that reflects the balance between the transmission and damping (i.e. attenuation) of pulsatility through extracranial vessels into the cerebrovasculature. Identifying biological (age, sex) and vascular contributors to pulsatile balance may provide insight into sex differences in brain aging.
Purpose: Explore biological and vascular contributors to cerebral pulsatility and pulsatile damping.
Methods: 282 Adults (53% female) 18–85 yrs underwent measurements of cerebral (middle cerebral artery) pulsatility, pulsatile damping (cerebral:carotid pulsatility), large artery stiffening (aortic:carotid pulse wave velocity (PWV)), and carotid wave transmission/reflection dynamics using wave-intensity analysis. Multiple regression was used to examine the contributions of 1) age, sex, BMI, aortic:carotid PWV, carotid diameter, pulse pressure, and forward-wave energy to cerebral pulsatility; and 2) age, sex, BMI, aortic:carotid PWV, carotid diameter, wave reflection index, and suction-wave energy to pulsatile damping.
Results: Age and female sex were predictors of greater cerebral pulsatility and reduced pulsatile damping. Beyond the effects of age and sex, greater large artery stiffening (β = 0.21), pulse pressure (β = 0.28), and forward wave energy (β = 0.26, model R2 = 0.42, p < 0.05) predicted greater cerebral pulsatility, while greater carotid wave reflection index (β = 0.23, model R2 = 0.49, p < 0.05) predicted greater pulsatile damping.
Conclusion: Our data confirms literature linking age and extracranial artery stiffening and hemodynamics to cerebral pulsatility. Our findings suggest age and female sex are associated with reduced damping of pulsatile hemodynamics, while carotid wave reflections enhance pulsatile damping. Lower pulsatile damping among females may contribute to greater cerebral pulsatile burden compared to males.
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- © 2019 Association for Research into Arterial Structure and Physiology. Publishing services by Atlantis Press International B.V.
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- This is an open access article distributed under the CC BY-NC 4.0 license (http://creativecommons.org/licenses/by-nc/4.0/).
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TY - JOUR AU - Wesley Lefferts AU - Jacob DeBlois AU - Jacqueline Augustine AU - Allison Keller AU - Kevin Heffernan PY - 2020 DA - 2020/02/15 TI - 4.2 Biological and Vascular Contributors to Cerebral Pulsatility and Pulsatile Damping JO - Artery Research SP - S31 EP - S31 VL - 25 IS - Supplement 1 SN - 1876-4401 UR - https://doi.org/10.2991/artres.k.191224.023 DO - 10.2991/artres.k.191224.023 ID - Lefferts2020 ER -