Changes in cerebral vascular reactivity and structure following prolonged exposure to high altitude in humans

Glen E. Foster; Jodie Davies-Thompson; Paolo B. Dominelli; Manraj K.S. Heran; Joseph Donnelly; Gregory R. duManoir; Philip N. Ainslie; Alexander Rauscher; A. William Sheel

doi:10.14814/phy2.12647

Changes in cerebral vascular reactivity and structure following prolonged exposure to high altitude in humans

Glen E. Foster^*, Jodie Davies-Thompson, Paolo B. Dominelli, Manraj K.S. Heran, Joseph Donnelly, Gregory R. duManoir, Philip N. Ainslie, Alexander Rauscher, A. William Sheel

^*Corresponding author for this work

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Abstract

Although high-altitude exposure can lead to neurocognitive impairment, even upon return to sea level, it remains unclear the extent to which brain volume and regional cerebral vascular reactivity (CVR) are altered following high-altitude exposure. The purpose of this study was to simultaneously determine the effect of 3 weeks at 5050 m on: (1) structural brain alterations; and (2) regional CVR after returning to sea level for 1 week. Healthy human volunteers (n = 6) underwent baseline and follow-up structural and functional magnetic resonance imaging (MRI) at rest and during a CVR protocol (end-tidal PCO₂ reduced by -10, -5 and increased by +5, +10, and +15 mmHg from baseline). CVR maps (% mmHg^-1) were generated using BOLD MRI and brain volumes were estimated. Following return to sea level, whole-brain volume and gray matter volume was reduced by 0.4 ± 0.3% (P < 0.01) and 2.6 ± 1.0% (P < 0.001), respectively; white matter was unchanged. Global gray matter CVR and white matter CVR were unchanged following return to sea level, but CVR was selectively increased (P < 0.05) in the brainstem (+30 ± 12%), hippocampus (+12 ± 3%), and thalamus (+10 ± 3%). These changes were the result of improvement and/or reversal of negative CVR to positive CVR in these regions. Three weeks of high-altitude exposure is reflected in loss of gray matter volume and improvements in negative CVR.

Original language	English
Article number	e12647
Journal	Physiological Reports
Volume	3
Issue number	12
DOIs	https://doi.org/10.14814/phy2.12647
Publication status	Published - 1 Jan 2015

Keywords

Cerebral atrophy
Cerebral vascular reactivity
High altitude

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title = "Changes in cerebral vascular reactivity and structure following prolonged exposure to high altitude in humans",

abstract = "Although high-altitude exposure can lead to neurocognitive impairment, even upon return to sea level, it remains unclear the extent to which brain volume and regional cerebral vascular reactivity (CVR) are altered following high-altitude exposure. The purpose of this study was to simultaneously determine the effect of 3 weeks at 5050 m on: (1) structural brain alterations; and (2) regional CVR after returning to sea level for 1 week. Healthy human volunteers (n = 6) underwent baseline and follow-up structural and functional magnetic resonance imaging (MRI) at rest and during a CVR protocol (end-tidal PCO2 reduced by -10, -5 and increased by +5, +10, and +15 mmHg from baseline). CVR maps (% mmHg-1) were generated using BOLD MRI and brain volumes were estimated. Following return to sea level, whole-brain volume and gray matter volume was reduced by 0.4 ± 0.3% (P < 0.01) and 2.6 ± 1.0% (P < 0.001), respectively; white matter was unchanged. Global gray matter CVR and white matter CVR were unchanged following return to sea level, but CVR was selectively increased (P < 0.05) in the brainstem (+30 ± 12%), hippocampus (+12 ± 3%), and thalamus (+10 ± 3%). These changes were the result of improvement and/or reversal of negative CVR to positive CVR in these regions. Three weeks of high-altitude exposure is reflected in loss of gray matter volume and improvements in negative CVR.",

keywords = "Cerebral atrophy, Cerebral vascular reactivity, High altitude",

author = "Foster, {Glen E.} and Jodie Davies-Thompson and Dominelli, {Paolo B.} and Heran, {Manraj K.S.} and Joseph Donnelly and duManoir, {Gregory R.} and Ainslie, {Philip N.} and Alexander Rauscher and Sheel, {A. William}",

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AU - Foster, Glen E.

AU - Davies-Thompson, Jodie

AU - Dominelli, Paolo B.

AU - Heran, Manraj K.S.

AU - Donnelly, Joseph

AU - duManoir, Gregory R.

AU - Ainslie, Philip N.

AU - Rauscher, Alexander

AU - Sheel, A. William

PY - 2015/1/1

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N2 - Although high-altitude exposure can lead to neurocognitive impairment, even upon return to sea level, it remains unclear the extent to which brain volume and regional cerebral vascular reactivity (CVR) are altered following high-altitude exposure. The purpose of this study was to simultaneously determine the effect of 3 weeks at 5050 m on: (1) structural brain alterations; and (2) regional CVR after returning to sea level for 1 week. Healthy human volunteers (n = 6) underwent baseline and follow-up structural and functional magnetic resonance imaging (MRI) at rest and during a CVR protocol (end-tidal PCO2 reduced by -10, -5 and increased by +5, +10, and +15 mmHg from baseline). CVR maps (% mmHg-1) were generated using BOLD MRI and brain volumes were estimated. Following return to sea level, whole-brain volume and gray matter volume was reduced by 0.4 ± 0.3% (P < 0.01) and 2.6 ± 1.0% (P < 0.001), respectively; white matter was unchanged. Global gray matter CVR and white matter CVR were unchanged following return to sea level, but CVR was selectively increased (P < 0.05) in the brainstem (+30 ± 12%), hippocampus (+12 ± 3%), and thalamus (+10 ± 3%). These changes were the result of improvement and/or reversal of negative CVR to positive CVR in these regions. Three weeks of high-altitude exposure is reflected in loss of gray matter volume and improvements in negative CVR.

AB - Although high-altitude exposure can lead to neurocognitive impairment, even upon return to sea level, it remains unclear the extent to which brain volume and regional cerebral vascular reactivity (CVR) are altered following high-altitude exposure. The purpose of this study was to simultaneously determine the effect of 3 weeks at 5050 m on: (1) structural brain alterations; and (2) regional CVR after returning to sea level for 1 week. Healthy human volunteers (n = 6) underwent baseline and follow-up structural and functional magnetic resonance imaging (MRI) at rest and during a CVR protocol (end-tidal PCO2 reduced by -10, -5 and increased by +5, +10, and +15 mmHg from baseline). CVR maps (% mmHg-1) were generated using BOLD MRI and brain volumes were estimated. Following return to sea level, whole-brain volume and gray matter volume was reduced by 0.4 ± 0.3% (P < 0.01) and 2.6 ± 1.0% (P < 0.001), respectively; white matter was unchanged. Global gray matter CVR and white matter CVR were unchanged following return to sea level, but CVR was selectively increased (P < 0.05) in the brainstem (+30 ± 12%), hippocampus (+12 ± 3%), and thalamus (+10 ± 3%). These changes were the result of improvement and/or reversal of negative CVR to positive CVR in these regions. Three weeks of high-altitude exposure is reflected in loss of gray matter volume and improvements in negative CVR.

KW - Cerebral atrophy

KW - Cerebral vascular reactivity

KW - High altitude

U2 - 10.14814/phy2.12647

DO - 10.14814/phy2.12647

M3 - Article

AN - SCOPUS:84992013952

SN - 2051-817X

VL - 3

JO - Physiological Reports

JF - Physiological Reports

IS - 12

M1 - e12647

ER -

Changes in cerebral vascular reactivity and structure following prolonged exposure to high altitude in humans

Abstract

Keywords

UN SDGs

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