Carbohydrate metabolism in isolated, working newborn pig heart [Glycolysis]

Carbohydrate metabolism in isolated, working newborn pig heart [Glycolysis]

Metabolic activity of the newborn pig heart was observed by means of a preparation that allowed isolated hearts to perform a physiologic work load. A 10-min period of retrograde aortic perfusion was followed by 60 min of recirculating perfusion in which bicarbonate buffer was infused into the right...

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Bibliographic Details
Published in:The American journal of physiology Vol. 241; no. 5; pp. E364 - E371
Main Authors: Werner, J.C, Whitman, V, Fripp, R.R, Schuler, H.G, Morgan, H.E
Format: Journal Article
Language:English
Published: United States 01-11-1981
Subjects:
Adenosine Triphosphate - metabolism
Animals
Animals, Newborn
Blood Pressure
Buffers
Carbohydrate Metabolism
Glucose - metabolism
Glycogen - metabolism
Heart - physiology
Lactates - metabolism
Lactic Acid
Myocardium - metabolism
Oxygen Consumption
Perfusion
Phosphocreatine - metabolism
Pyruvates - metabolism
Pyruvic Acid
Space life sciences
Swine
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Summary:Metabolic activity of the newborn pig heart was observed by means of a preparation that allowed isolated hearts to perform a physiologic work load. A 10-min period of retrograde aortic perfusion was followed by 60 min of recirculating perfusion in which bicarbonate buffer was infused into the right atrium and ejected from both ventricles at measured pressures and flow rates. The buffer was supplemented with either glucose (10 mM), lactate (20 mM), or pyruvate (20 mM), or was unsupplemented. Pressure development and ventricular outputs were stable through 60 min of perfusion with glucose, pyruvate, or lactate supplementation. Myocardial high-energy phosphate and glycogen contents were also stable. In hearts perfused without substrate supplementation, mechanical performance deteriorated after 30 min. Rates of substrate uptake and oxygen consumption indicated that either glucose, lactate, or pyruvate could serve as a primary source of metabolic energy. Minimal lactate production was observed when either glucose or pyruvate were present. These findings indicate that, despite recent emergence from the relatively hypoxic intrauterine environment, the well-oxygenated newborn pig heart did not depend on anaerobic metabolism of glucose for energy production at physiologic work loads.
Bibliography:L50
8201616
ObjectType-Article-1
SourceType-Scholarly Journals-1
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ISSN:0002-9513
2163-5773
DOI:10.1152/ajpendo.1981.241.5.E364