Boushel 2013 Int J Biochem Cell Biol: Difference between revisions
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{{Publication | {{Publication | ||
|title=Boushel RC, Saltin B ( | |title=Boushel RC, Saltin B (2013) ''Ex vivo'' measures of muscle mitochondrial capacity reveal quantitative limits of oxygen delivery by the circulation during exercise. Int J Biochem Cell Biol 45:68-75. | ||
|info=[http://www.ncbi.nlm.nih.gov/pubmed?term=Boushel%20R%2C%20Saltin%20B.%20Int%20J%20Biochem%20Cell%20Biol PMID: 23032701] | |info=[http://www.ncbi.nlm.nih.gov/pubmed?term=Boushel%20R%2C%20Saltin%20B.%20Int%20J%20Biochem%20Cell%20Biol PMID: 23032701] | ||
|authors=Boushel RC, Saltin B | |authors=Boushel RC, Saltin B | ||
|year= | |year=2013 | ||
|journal=Int J Biochem Cell Biol | |journal=Int J Biochem Cell Biol | ||
|abstract=Muscle mitochondrial respiratory capacity measured ''ex vivo'' provides a physiological reference to assess cellular oxidative capacity as a component in the oxygen cascade ''in vivo''. In this article, the magnitude of muscle blood flow and oxygen uptake during exercise involving a small-to-large fraction of the body mass will be discussed in relation to mitochondrial capacity measured ''ex vivo''. These analyses reveal that as the mass of muscle engaged in exercise increases from one-leg knee extension, to 2-arm cranking, to 2-leg cycling and x-country skiing, the magnitude of blood flow and oxygen delivery decrease. Accordingly, a 2-fold higher oxygen delivery and oxygen uptake per unit muscle mass are seen ''in vivo'' during 1-leg exercise compared to 2-leg cycling indicating a significant limitation of the circulation during exercise with a large muscle mass. This analysis also reveals that mitochondrial capacity measured ''ex vivo'' underestimates the maximal ''in vivo'' oxygen uptake of muscle by up to βΌ2-fold. | |abstract=Muscle mitochondrial respiratory capacity measured ''ex vivo'' provides a physiological reference to assess cellular oxidative capacity as a component in the oxygen cascade ''in vivo''. In this article, the magnitude of muscle blood flow and oxygen uptake during exercise involving a small-to-large fraction of the body mass will be discussed in relation to mitochondrial capacity measured ''ex vivo''. These analyses reveal that as the mass of muscle engaged in exercise increases from one-leg knee extension, to 2-arm cranking, to 2-leg cycling and x-country skiing, the magnitude of blood flow and oxygen delivery decrease. Accordingly, a 2-fold higher oxygen delivery and oxygen uptake per unit muscle mass are seen ''in vivo'' during 1-leg exercise compared to 2-leg cycling indicating a significant limitation of the circulation during exercise with a large muscle mass. This analysis also reveals that mitochondrial capacity measured ''ex vivo'' underestimates the maximal ''in vivo'' oxygen uptake of muscle by up to βΌ2-fold. This article is part of a Directed Issue entitled: Bioenergetic dysfunction, adaptation and therapy. | ||
Β | |keywords=O2 delivery; Oxidative phosphorylation; Exercise | ||
This article is part of a Directed Issue entitled: Bioenergetic dysfunction, adaptation and therapy. | |mipnetlab=CA Vancouver Boushel RC | ||
|keywords= | |||
|mipnetlab= | |||
}} | }} | ||
{{Labeling | {{Labeling | ||
| | |area=Respiration, Exercise physiology;nutrition;life style | ||
|organism=Human | |organism=Human | ||
|tissues=Skeletal muscle | |||
|preparations=Permeabilized tissue | |||
|topics=ADP | |||
|couplingstates=OXPHOS | |||
|pathways=N, NS | |||
|additional=Review | |||
}} | }} | ||
Latest revision as of 15:37, 7 November 2016
Boushel RC, Saltin B (2013) Ex vivo measures of muscle mitochondrial capacity reveal quantitative limits of oxygen delivery by the circulation during exercise. Int J Biochem Cell Biol 45:68-75. |
Boushel RC, Saltin B (2013) Int J Biochem Cell Biol
Abstract: Muscle mitochondrial respiratory capacity measured ex vivo provides a physiological reference to assess cellular oxidative capacity as a component in the oxygen cascade in vivo. In this article, the magnitude of muscle blood flow and oxygen uptake during exercise involving a small-to-large fraction of the body mass will be discussed in relation to mitochondrial capacity measured ex vivo. These analyses reveal that as the mass of muscle engaged in exercise increases from one-leg knee extension, to 2-arm cranking, to 2-leg cycling and x-country skiing, the magnitude of blood flow and oxygen delivery decrease. Accordingly, a 2-fold higher oxygen delivery and oxygen uptake per unit muscle mass are seen in vivo during 1-leg exercise compared to 2-leg cycling indicating a significant limitation of the circulation during exercise with a large muscle mass. This analysis also reveals that mitochondrial capacity measured ex vivo underestimates the maximal in vivo oxygen uptake of muscle by up to βΌ2-fold. This article is part of a Directed Issue entitled: Bioenergetic dysfunction, adaptation and therapy. β’ Keywords: O2 delivery; Oxidative phosphorylation; Exercise
β’ O2k-Network Lab: CA Vancouver Boushel RC
Labels: MiParea: Respiration, Exercise physiology;nutrition;life style
Organism: Human
Tissue;cell: Skeletal muscle
Preparation: Permeabilized tissue
Regulation: ADP Coupling state: OXPHOS Pathway: N, NS
Review