Hypoxia and exercise provoke both lactate release and lactate oxidation by the human brain

Morten Overgaard; Peter Rasmussen; Aske M Bohm; Thomas Seifert; Patrice Brassard; Morten Zaar; Pernille Halberg Homann; Kevin A Evans; Henning M Bay Nielsen; Niels H Secher

doi:10.1096/fj.11-191999

Hypoxia and exercise provoke both lactate release and lactate oxidation by the human brain

Morten Overgaard, Peter Rasmussen, Aske M Bohm, Thomas Seifert, Patrice Brassard, Morten Zaar, Pernille Halberg Homann, Kevin A Evans, Henning M Bay Nielsen, Niels H Secher

81 Citations (Scopus)

Abstract

Lactate is shuttled between organs, as demonstrated in the Cori cycle. Although the brain releases lactate at rest, during physical exercise there is a cerebral uptake of lactate. Here, we evaluated the cerebral lactate uptake and release in hypoxia, during exercise and when the two interventions were combined. We measured cerebral lactate turnover via a tracer dilution method ([1-(13)C]lactate), using arterial to right internal jugular venous differences in 9 healthy individuals (5 males and 4 females), at rest and during 30 min of submaximal exercise in normoxia and hypoxia (F(i)o(2) 10%, arterial oxygen saturation 72±10%, mean±SD). Whole-body lactate turnover increased 3.5-fold and 9-fold at two workloads in normoxia and 18-fold during exercise in hypoxia. Although middle cerebral artery mean flow velocity increased during exercise in hypoxia, calculated cerebral mitochondrial oxygen tension decreased by 13 mmHg (P

Original language	English
Journal	F A S E B Journal
Pages (from-to)	3012-20
ISSN	0892-6638
DOIs	https://doi.org/10.1096/fj.11-191999
Publication status	Published - 2012

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10.1096/fj.11-191999

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title = "Hypoxia and exercise provoke both lactate release and lactate oxidation by the human brain",

abstract = "Lactate is shuttled between organs, as demonstrated in the Cori cycle. Although the brain releases lactate at rest, during physical exercise there is a cerebral uptake of lactate. Here, we evaluated the cerebral lactate uptake and release in hypoxia, during exercise and when the two interventions were combined. We measured cerebral lactate turnover via a tracer dilution method ([1-(13)C]lactate), using arterial to right internal jugular venous differences in 9 healthy individuals (5 males and 4 females), at rest and during 30 min of submaximal exercise in normoxia and hypoxia (F(i)o(2) 10\%, arterial oxygen saturation 72±10\%, mean±SD). Whole-body lactate turnover increased 3.5-fold and 9-fold at two workloads in normoxia and 18-fold during exercise in hypoxia. Although middle cerebral artery mean flow velocity increased during exercise in hypoxia, calculated cerebral mitochondrial oxygen tension decreased by 13 mmHg (P",

author = "Morten Overgaard and Peter Rasmussen and Bohm, \{Aske M\} and Thomas Seifert and Patrice Brassard and Morten Zaar and Homann, \{Pernille Halberg\} and Evans, \{Kevin A\} and Nielsen, \{Henning M Bay\} and Secher, \{Niels H\}",

year = "2012",

doi = "10.1096/fj.11-191999",

language = "English",

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T1 - Hypoxia and exercise provoke both lactate release and lactate oxidation by the human brain

AU - Overgaard, Morten

AU - Rasmussen, Peter

AU - Bohm, Aske M

AU - Seifert, Thomas

AU - Brassard, Patrice

AU - Zaar, Morten

AU - Homann, Pernille Halberg

AU - Evans, Kevin A

AU - Nielsen, Henning M Bay

AU - Secher, Niels H

PY - 2012

Y1 - 2012

N2 - Lactate is shuttled between organs, as demonstrated in the Cori cycle. Although the brain releases lactate at rest, during physical exercise there is a cerebral uptake of lactate. Here, we evaluated the cerebral lactate uptake and release in hypoxia, during exercise and when the two interventions were combined. We measured cerebral lactate turnover via a tracer dilution method ([1-(13)C]lactate), using arterial to right internal jugular venous differences in 9 healthy individuals (5 males and 4 females), at rest and during 30 min of submaximal exercise in normoxia and hypoxia (F(i)o(2) 10%, arterial oxygen saturation 72±10%, mean±SD). Whole-body lactate turnover increased 3.5-fold and 9-fold at two workloads in normoxia and 18-fold during exercise in hypoxia. Although middle cerebral artery mean flow velocity increased during exercise in hypoxia, calculated cerebral mitochondrial oxygen tension decreased by 13 mmHg (P

AB - Lactate is shuttled between organs, as demonstrated in the Cori cycle. Although the brain releases lactate at rest, during physical exercise there is a cerebral uptake of lactate. Here, we evaluated the cerebral lactate uptake and release in hypoxia, during exercise and when the two interventions were combined. We measured cerebral lactate turnover via a tracer dilution method ([1-(13)C]lactate), using arterial to right internal jugular venous differences in 9 healthy individuals (5 males and 4 females), at rest and during 30 min of submaximal exercise in normoxia and hypoxia (F(i)o(2) 10%, arterial oxygen saturation 72±10%, mean±SD). Whole-body lactate turnover increased 3.5-fold and 9-fold at two workloads in normoxia and 18-fold during exercise in hypoxia. Although middle cerebral artery mean flow velocity increased during exercise in hypoxia, calculated cerebral mitochondrial oxygen tension decreased by 13 mmHg (P

UR - https://www.scopus.com/pages/publications/84863204054

U2 - 10.1096/fj.11-191999

DO - 10.1096/fj.11-191999

M3 - Journal article

C2 - 22441982

SN - 0892-6638

SP - 3012

EP - 3020

JO - F A S E B Journal

JF - F A S E B Journal

ER -

Hypoxia and exercise provoke both lactate release and lactate oxidation by the human brain

Abstract

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