Regulation of human skeletal muscle perfusion and its heterogeneity during exercise in moderate hypoxia

Regulation of human skeletal muscle perfusion and its heterogeneity during exercise in moderate hypoxia

Although many effects of both acute and chronic hypoxia on the circulation are well characterized, the distribution and regulation of blood flow (BF) heterogeneity in skeletal muscle during systemic hypoxia is not well understood in humans. We measured muscle BF within the thigh muscles of nine heal...

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Bibliographic Details
Published in:American journal of physiology. Regulatory, integrative and comparative physiology Vol. 299; no. 1; p. R72
Main Authors: Heinonen, Ilkka H, Kemppainen, Jukka, Kaskinoro, Kimmo, Peltonen, Juha E, Borra, Ronald, Lindroos, Markus, Oikonen, Vesa, Nuutila, Pirjo, Knuuti, Juhani, Boushel, Robert, Kalliokoski, Kari K
Format: Journal Article
Language:English
Published: United States 01-07-2010
Subjects:
Adenosine - pharmacology
Adult
Altitude
Capillaries - physiopathology
Exercise - physiology
Hemodynamics - physiology
Humans
Hyperemia - diagnostic imaging
Hypoxia - diagnostic imaging
Hypoxia - physiopathology
Leg - blood supply
Leg - physiology
Leg - physiopathology
Male
Muscle Contraction
Muscle, Skeletal - blood supply
Muscle, Skeletal - diagnostic imaging
Muscle, Skeletal - physiology
Oxygen - blood
Perfusion
Quadriceps Muscle - blood supply
Quadriceps Muscle - physiopathology
Radionuclide Imaging
Receptors, Purinergic P1 - metabolism
Rest - physiology
Sympathetic Nervous System - physiology
Sympathetic Nervous System - physiopathology
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Summary:Although many effects of both acute and chronic hypoxia on the circulation are well characterized, the distribution and regulation of blood flow (BF) heterogeneity in skeletal muscle during systemic hypoxia is not well understood in humans. We measured muscle BF within the thigh muscles of nine healthy young men using positron emission tomography during one-leg dynamic knee extension exercise in normoxia and moderate physiological systemic hypoxia (14% O(2) corresponding to approximately 3,400 m of altitude) without and with local adenosine receptor inhibition with femoral artery infusion of aminophylline. Systemic hypoxia reduced oxygen extraction of the limb but increased muscle BF, and this flow increment was confined solely to the exercising quadriceps femoris muscle. Exercising muscle BF heterogeneity was reduced from rest (P = 0.055) but was not affected by hypoxia. Adenosine receptor inhibition had no effect on capillary BF during exercise in either normoxia or hypoxia. Finally, one-leg exercise increased muscle BF heterogeneity both in the resting posterior hamstring part of the exercising leg and in the resting contralateral leg, whereas mean BF was unchanged. In conclusion, the results show that increased BF during one-leg exercise in moderate hypoxia is confined only to the contracting muscles, and the working muscle hyperemia appears not to be directly mediated by adenosine. Increased flow heterogeneity in noncontracting muscles likely reflects sympathetic nervous constraints to curtail BF increments in areas other than working skeletal muscles, but this effect is not potentiated in moderate systemic hypoxia during small muscle mass exercise.
ISSN:1522-1490
DOI:10.1152/ajpregu.00056.2010