AltitudeOmics: Resetting of cerebrovascular CO2 reactivity following acclimatization to high altitude

AltitudeOmics: Resetting of cerebrovascular CO2 reactivity following acclimatization to high altitude

Previous studies reported enhanced cerebrovascular CO2 reactivity upon ascent to high altitude using linear models. However, there is evidence that this response may be sigmoidal in nature. Moreover, it was speculated that these changes at high altitude are mediated by alterations in acid-base buffe...

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Main Authors: Jui-Lin eFan, Andrew W Subudhi, James eDuffin, Andrew T Lovering, Robert C Roach, Bengt eKayser
Format: Article
Language:English
Published: Frontiers Media S.A. 2016-01-01
Series:Frontiers in Physiology
Subjects:
cerebral blood flow
transcranial Doppler
cerebral hemodynamics
high altitude
Cerebral blood flow regulation
Online Access:http://journal.frontiersin.org/Journal/10.3389/fphys.2015.00394/full
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spelling doaj-75abde482fe249a2878c125a580e37512020-11-24T21:46:29ZengFrontiers Media S.A.Frontiers in Physiology1664-042X2016-01-01610.3389/fphys.2015.00394171266AltitudeOmics: Resetting of cerebrovascular CO2 reactivity following acclimatization to high altitudeJui-Lin eFan0Jui-Lin eFan1Andrew W Subudhi2Andrew W Subudhi3James eDuffin4James eDuffin5James eDuffin6Andrew T Lovering7Robert C Roach8Bengt eKayser9Bengt eKayser10University of OtagoUniversity of OtagoUniversity of ColoradoUniversity of Colorado Colorado SpringsUniversity of TorontoUniversity of TorontoUniversity Health NetworkUniversity of OregonUniversity of ColoradoUniversity of LausanneUniversity of LausannePrevious studies reported enhanced cerebrovascular CO2 reactivity upon ascent to high altitude using linear models. However, there is evidence that this response may be sigmoidal in nature. Moreover, it was speculated that these changes at high altitude are mediated by alterations in acid-base buffering. Accordingly, we reanalyzed previously published data to assess middle cerebral blood flow velocity (MCAv) responses to modified rebreathing at sea level (SL), upon ascent (ALT1) and following 16 days of acclimatization (ALT16) to 5,260 m in 21 lowlanders. Using sigmoid curve fitting of the MCAv responses to CO2, we found the amplitude (95% vs. 129%, SL vs. ALT1, 95% confidence intervals (CI) [77, 112], [111, 145], respectively, P=0.024) and the slope of the sigmoid response (4.5 vs. 7.5 %/mmHg, SL vs. ALT1, 95% CIs [3.1, 5.9], [6.0, 9.0], respectively, P=0.026) to be enhanced at ALT1, which persisted with acclimatization at ALT16 (amplitude: 177%, 95% CI [139, 215], P<0.001; slope: 10.3 %/mmHg, 95% CI [8.2, 12.5], P=0.003) compared to SL. Meanwhile, the sigmoidal response midpoint was unchanged at ALT1 (SL: 36.5 mmHg; ALT1: 35.4 mmHg, 95% CIs [34.0, 39.0], [33.1, 37.7], respectively, P=0.982), while it was reduced by ~7 mmHg at ALT16 (28.6 mmHg, 95% CI [26.4, 30.8], P=0.001 vs. SL), indicating leftward shift of the cerebrovascular CO2 response to a lower arterial partial pressure of CO2 (PaCO2) following acclimatization to altitude. Sigmoid fitting revealed a leftward shift in the midpoint of the cerebrovascular response curve which could not be observed with linear fitting. These findings demonstrate that there is resetting of the cerebrovascular CO2 reactivity operating point to a lower PaCO2 following acclimatization to high altitude. This cerebrovascular resetting is likely the result of an altered acid-base buffer status resulting from prolonged exposure to the severe hypocapnia associated with ventilatory acclimatization to high altitude.http://journal.frontiersin.org/Journal/10.3389/fphys.2015.00394/fullcerebral blood flowtranscranial Dopplercerebral hemodynamicshigh altitudeCerebral blood flow regulation
collection DOAJ
language English
format Article
sources DOAJ
author Jui-Lin eFan
Jui-Lin eFan
Andrew W Subudhi
Andrew W Subudhi
James eDuffin
James eDuffin
James eDuffin
Andrew T Lovering
Robert C Roach
Bengt eKayser
Bengt eKayser
spellingShingle Jui-Lin eFan
Jui-Lin eFan
Andrew W Subudhi
Andrew W Subudhi
James eDuffin
James eDuffin
James eDuffin
Andrew T Lovering
Robert C Roach
Bengt eKayser
Bengt eKayser
AltitudeOmics: Resetting of cerebrovascular CO2 reactivity following acclimatization to high altitude
Frontiers in Physiology
cerebral blood flow
transcranial Doppler
cerebral hemodynamics
high altitude
Cerebral blood flow regulation
author_facet Jui-Lin eFan
Jui-Lin eFan
Andrew W Subudhi
Andrew W Subudhi
James eDuffin
James eDuffin
James eDuffin
Andrew T Lovering
Robert C Roach
Bengt eKayser
Bengt eKayser
author_sort Jui-Lin eFan
title AltitudeOmics: Resetting of cerebrovascular CO2 reactivity following acclimatization to high altitude
title_short AltitudeOmics: Resetting of cerebrovascular CO2 reactivity following acclimatization to high altitude
title_full AltitudeOmics: Resetting of cerebrovascular CO2 reactivity following acclimatization to high altitude
title_fullStr AltitudeOmics: Resetting of cerebrovascular CO2 reactivity following acclimatization to high altitude
title_full_unstemmed AltitudeOmics: Resetting of cerebrovascular CO2 reactivity following acclimatization to high altitude
title_sort altitudeomics: resetting of cerebrovascular co2 reactivity following acclimatization to high altitude
publisher Frontiers Media S.A.
series Frontiers in Physiology
issn 1664-042X
publishDate 2016-01-01
description Previous studies reported enhanced cerebrovascular CO2 reactivity upon ascent to high altitude using linear models. However, there is evidence that this response may be sigmoidal in nature. Moreover, it was speculated that these changes at high altitude are mediated by alterations in acid-base buffering. Accordingly, we reanalyzed previously published data to assess middle cerebral blood flow velocity (MCAv) responses to modified rebreathing at sea level (SL), upon ascent (ALT1) and following 16 days of acclimatization (ALT16) to 5,260 m in 21 lowlanders. Using sigmoid curve fitting of the MCAv responses to CO2, we found the amplitude (95% vs. 129%, SL vs. ALT1, 95% confidence intervals (CI) [77, 112], [111, 145], respectively, P=0.024) and the slope of the sigmoid response (4.5 vs. 7.5 %/mmHg, SL vs. ALT1, 95% CIs [3.1, 5.9], [6.0, 9.0], respectively, P=0.026) to be enhanced at ALT1, which persisted with acclimatization at ALT16 (amplitude: 177%, 95% CI [139, 215], P<0.001; slope: 10.3 %/mmHg, 95% CI [8.2, 12.5], P=0.003) compared to SL. Meanwhile, the sigmoidal response midpoint was unchanged at ALT1 (SL: 36.5 mmHg; ALT1: 35.4 mmHg, 95% CIs [34.0, 39.0], [33.1, 37.7], respectively, P=0.982), while it was reduced by ~7 mmHg at ALT16 (28.6 mmHg, 95% CI [26.4, 30.8], P=0.001 vs. SL), indicating leftward shift of the cerebrovascular CO2 response to a lower arterial partial pressure of CO2 (PaCO2) following acclimatization to altitude. Sigmoid fitting revealed a leftward shift in the midpoint of the cerebrovascular response curve which could not be observed with linear fitting. These findings demonstrate that there is resetting of the cerebrovascular CO2 reactivity operating point to a lower PaCO2 following acclimatization to high altitude. This cerebrovascular resetting is likely the result of an altered acid-base buffer status resulting from prolonged exposure to the severe hypocapnia associated with ventilatory acclimatization to high altitude.
topic cerebral blood flow
transcranial Doppler
cerebral hemodynamics
high altitude
Cerebral blood flow regulation
url http://journal.frontiersin.org/Journal/10.3389/fphys.2015.00394/full
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