Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
3080290 | Neuromuscular Disorders | 2010 | 11 Pages |
Abstract
Debranching enzyme deficiency (Glycogen storage disease (GSD) type III) causes progressive muscle wasting myopathy. A comprehensive nuclear magnetic resonance study involving spectroscopy (NMRS) and imaging (NMRI) evaluated status and function of calf muscles in 18 GSDIII patients. At rest, 31P NMRS showed elevated pH and accumulation of anomalous phosphomonoesters, 13C NMRS quantified excess glycogen accumulation and NMRI demonstrated progressive fat replacement that paralleled muscle weakness. Multi-parametric functional NMR, performed at recovery from a single bout of aerobic exercise, simultaneously assessed oxidative phosphorylation from 31P NMRS, muscle perfusion and BOLD, a marker of blood oxygenation, from arterial spin labeled NMRI, and oxygen uptake from deoxymyoglobin proton NMRS. While blocked glycogenolysis caused inadequate substrate supply to the mitochondria, combined measurements suggested that altered perfusion was also responsible for impaired post-exercise phosphocreatine recovery and could contribute to exercise intolerance in GSDIII. These non-invasive investigations provide new indices to quantify the progression of GSDIII.
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Authors
Claire Wary, Aleksandra Nadaj-Pakleza, Pascal Laforêt, Kristl G. Claeys, Robert Carlier, Aurélien Monnet, Servanne Fleury, Céline Baligand, Bruno Eymard, Philippe Labrune, Pierre G. Carlier,