Metabolic Transient Studies by NMR

T. Binzoni; G. Ferretti; K. Schenker; F. Barbalat; E. Hiltbrand; P. Cerretelli

doi:10.1055/s-2007-1024624

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Int J Sports Med 1992; 13: S155-S157
DOI: 10.1055/s-2007-1024624

Metabolic Transient Studies by NMR

T. Binzoni¹ ^, ⁴ , G. Ferretti¹ , K. Schenker² , F. Barbalat³ , E. Hiltbrand⁴ , P. Cerretelli¹

¹Dépt. de Physiologie, CMU, Genève, Switzerland
²Spectrospin AG, Fällanden, Switzerland
³Dépt. de Chimie Pharmaceutique, Faculté des Sciences, Genève, Switzerland
⁴Dépt. de Radiologie, HCUG, Genève, Switzerland

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Publication Date:
14 March 2008 (online)

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Abstract

The time course of phosphocreatine (PC) hydrolysis in humans was measured by ³¹P-NMR spectroscopy (³¹P-NMRS) with a time resolution of 10.8 s in the gastrocnemius muscle and a relationship between muscle O₂ consumption (V̇O₂) and [PC] was derived from a bio-energetic model. This allowed a direct estimate of the half-time of the intracellular V̇O₂ kinetics (t1/2 V̇O₂) of the contracting human gastrocnemius in aerobic conditions. t1/2 V̇O₂ was found to be ∼ 16 s and independent of the work load. This value corresponds to the shortest t1/2 V̇O₂ determined at the mouth of the subject in the absence of lactate accumulation in the rest to work transient. t1/2 V̇O₂ may now be assessed in man at low muscle temperatures. To this aim a procedure was developed allowing corrections of the ³¹P-NMR spectra based on the muscle temperature profiles obtained by a simultaneously acquired proton image.

Key words

Exercise - phosphocreatine - O₂ consumption - temperature - muscle - ³¹P-NMR - humans

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