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The effect of CO2 on the age dependence of neurovascular coupling

journal contribution
posted on 2025-01-10, 16:56 authored by Aaron Davies, Dewakar Gurung, Kannaphob Ladthavorlaphatt, Alex Mankoo, Ronney PaneraiRonney Panerai, Thompson G Robinson, Jatinder S Minhas, Lucy C Beishon
Prior studies have identified variable effects of healthy aging on neurovascular coupling (NVC). Carbon dioxide (CO2) affects both cerebral blood velocity (CBv) and NVC, but the effects of age on NVC under different CO2 conditions are unknown. Therefore, we investigated the effects of aging on NVC in different CO2 states in healthy controls during cognitive paradigms. 78 healthy participants (18-78 years) underwent continuous recordings of CBv by bilateral insonation of middle (MCA) and posterior (PCA) cerebral arteries (transcranial Doppler), blood pressure, end-tidal CO2, and heart rate during poikilocapnia, hypercapnia (5% CO2 inhalation) and hypocapnia (paced hyperventilation). Neuroactivation via visuospatial (VS) and attention tasks (AT) augmented CBv. Peak percentage change in MCAv/PCAv, were compared between CO2 conditions and age groups (< 30, 31-60, and >60 years). For the VS task, in normocapnia, younger adults had a lower NVC response compared to older adults (mean difference (MD): -7.92% (standard deviation (SD): 2.37), p=0.004), but comparable between younger and middle-aged groups. In hypercapnia, both younger (MD: -4.75% (SD: 1.56), p=0.009) and middle (MD: -4.58% (SD: 1.69), p=0.023) age groups had lower NVC responses compared to older adults. Finally, in hypocapnia, both older (MD: 5.92% (SD: 2.21), p=0.025) and middle (MD: 5.44% (SD: 2.27), p=0.049) age groups had greater NVC responses, compared to younger adults. In conclusion, the middle-aged adults demonstrated a variable NVC response, comparable to younger adults under hypercapnia, and older adults under hypocapnia. This may owe to a more cognitively favourable profile while under hypercapnic conditions, compared to hypocapnia.

History

Author affiliation

College of Life Sciences Cardiovascular Sciences

Version

  • AM (Accepted Manuscript)

Published in

Journal of Applied Physiology

Volume

137

Issue

2

Pagination

445-459

Publisher

American Physiological Society

issn

8750-7587

eissn

1522-1601

Copyright date

2024

Available date

2025-08-16

Spatial coverage

United States

Language

en

Deposited by

Professor Ronney Panerai

Deposit date

2024-07-18

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