Reversal of neurovascular coupling in the default mode network: Evidence from hypoxia

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Reversal of neurovascular coupling in the default mode network: Evidence from hypoxia. / Rossetti, Gabriella; d'Avossa, Giovanni; Rogan, Matthew et al.
In: Journal of Cerebral Blood Flow and Metabolism, Vol. 41, No. 4, 04.2021, p. 805–818.

Research output: Contribution to journalArticlepeer-review

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Rossetti, Gabriella et al. "Reversal of neurovascular coupling in the default mode network: Evidence from hypoxia". Journal of Cerebral Blood Flow and Metabolism. 2021, 41(4). 805–818. https://doi.org/10.1177/0271678X20930827

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Rossetti G, d'Avossa G, Rogan M, Macdonald J, Oliver S, Mullins P. Reversal of neurovascular coupling in the default mode network: Evidence from hypoxia. Journal of Cerebral Blood Flow and Metabolism. 2021 Apr;41(4):805–818. Epub 2020 Jun 14. doi: 10.1177/0271678X20930827

Author

Rossetti, Gabriella ; d'Avossa, Giovanni ; Rogan, Matthew et al. / Reversal of neurovascular coupling in the default mode network: Evidence from hypoxia. In: Journal of Cerebral Blood Flow and Metabolism. 2021 ; Vol. 41, No. 4. pp. 805–818.

RIS

TY - JOUR

T1 - Reversal of neurovascular coupling in the default mode network: Evidence from hypoxia

AU - Rossetti, Gabriella

AU - d'Avossa, Giovanni

AU - Rogan, Matthew

AU - Macdonald, Jamie

AU - Oliver, Sam

AU - Mullins, Paul

PY - 2021/4

Y1 - 2021/4

N2 - Local changes in cerebral blood flow are thought to match changes in neuronal activity, a phenomenon termed neurovascular coupling. Hypoxia increases global resting cerebral blood flow, but regional cerebral blood flow (rCBF) changes are non-uniform. Hypoxia decreases baseline rCBF to the default mode network (DMN), which could reflect either decreased neuronal activity or altered neurovascular coupling. To distinguish between these hypotheses, we characterized the effects of hypoxia on baseline rCBF, task performance, and the hemodynamic (BOLD) response to task activity. During hypoxia, baseline CBF increased across most of the brain, but decreased in DMN regions. Performance on memory recall and motion detection tasks was not diminished, suggesting task-relevant neuronal activity was unaffected. Hypoxia reversed both positive and negative task-evoked BOLD responses in the DMN, suggesting hypoxia reverses neurovascular coupling in the DMN of healthy adults. The reversal of the BOLD response was specific to the DMN. Hypoxia produced modest increases in activations in the visual attention network (VAN) during the motion detection task, and had no effect on activations in the visual cortex during visual stimulation. This regional specificity may be particularly pertinent to clinical populations characterized by hypoxemia and may enhance understanding of regional specificity in neurodegenerative disease pathology.

AB - Local changes in cerebral blood flow are thought to match changes in neuronal activity, a phenomenon termed neurovascular coupling. Hypoxia increases global resting cerebral blood flow, but regional cerebral blood flow (rCBF) changes are non-uniform. Hypoxia decreases baseline rCBF to the default mode network (DMN), which could reflect either decreased neuronal activity or altered neurovascular coupling. To distinguish between these hypotheses, we characterized the effects of hypoxia on baseline rCBF, task performance, and the hemodynamic (BOLD) response to task activity. During hypoxia, baseline CBF increased across most of the brain, but decreased in DMN regions. Performance on memory recall and motion detection tasks was not diminished, suggesting task-relevant neuronal activity was unaffected. Hypoxia reversed both positive and negative task-evoked BOLD responses in the DMN, suggesting hypoxia reverses neurovascular coupling in the DMN of healthy adults. The reversal of the BOLD response was specific to the DMN. Hypoxia produced modest increases in activations in the visual attention network (VAN) during the motion detection task, and had no effect on activations in the visual cortex during visual stimulation. This regional specificity may be particularly pertinent to clinical populations characterized by hypoxemia and may enhance understanding of regional specificity in neurodegenerative disease pathology.

KW - Hypoxia

KW - cerebrovascular circulation

KW - magnetic resonance imaging

KW - memory

KW - attention

U2 - 10.1177/0271678X20930827

DO - 10.1177/0271678X20930827

M3 - Article

C2 - 32538282

VL - 41

SP - 805

EP - 818

JO - Journal of Cerebral Blood Flow and Metabolism

JF - Journal of Cerebral Blood Flow and Metabolism

SN - 0271-678X

IS - 4

ER -