Potential role of skeletal muscle glycerophosphocholine in response to altered fluid balance in humans: an in vivo nuclear magnetic resonance study

Baumgartner, Clemens; Wolf, Peter; Beiglböck, Hannes; Pfleger, Lorenz; Fellinger, Paul; Heitzinger, Gregor; Metz, Matthäus; Leutner, Michael; Kautzky-Willer, Alexandra; Krššák, Martin; Krebs, Michael

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American Physiological Society, AJP - Endocrinology and Metabolism, 4(324), p. E339-E346, 2023

DOI: 10.1152/ajpendo.00286.2022

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Potential role of skeletal muscle glycerophosphocholine in response to altered fluid balance in humans: an in vivo nuclear magnetic resonance study

Journal article published in 2023 by Clemens Baumgartner

, Peter Wolf

, Hannes Beiglböck, Lorenz Pfleger, Paul Fellinger

, Gregor Heitzinger, Matthäus Metz, Michael Leutner, Alexandra Kautzky-Willer, Martin Krššák

, Michael Krebs

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Abstract

Using in vivo magnetic resonance spectroscopy, our study is the first one indicating fluid balance-dependent properties of glycerophosphocholine concentrations in human skeletal muscle. In vivo examination of GPC as organic osmolyte in human skeletal muscle marks a novel approach, which might give further insight on how water and electrolyte balance affect muscle tissue. Beside this main finding, glycerophosphocholine of both calf and thigh muscle correlated remarkably with blood laboratory parameters of lipid metabolism in our study population.

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Potential role of skeletal muscle glycerophosphocholine in response to altered fluid balance in humans: an in vivo nuclear magnetic resonance study

Abstract