Literature DB >> 18313367

Systematic evaluation of muscle coenzyme Q10 content in children with mitochondrial respiratory chain enzyme deficiencies.

Michael V Miles1, Lili Miles, Peter H Tang, Paul S Horn, Paul E Steele, Antonius J DeGrauw, Brenda L Wong, Kevin E Bove.   

Abstract

Coenzyme Q10 content, pathology evaluation, and electron transport chain (ETC) enzyme analysis were determined in muscle biopsy specimens of 82 children with suspected mitochondrial myopathy. Data were stratified into three groups: "probable" ETC defects, "possible" ETC defects, and disease controls. Muscle total, oxidized, and reduced coenzyme Q10 concentrations were significantly decreased in the probable defect group. Stepwise logistic regression indicated that only total coenzyme Q10 was significantly associated with probable ETC defect. Receiver operator characteristic (ROC) analysis suggested that total muscle coenzyme Q10 was the best predictor of an ETC complex abnormality. Determination of muscle coenzyme Q10 deficiency in children with suspected mitochondrial disease may facilitate diagnosis and encourage earlier supplementation of this agent.

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Year:  2008        PMID: 18313367     DOI: 10.1016/j.mito.2008.01.003

Source DB:  PubMed          Journal:  Mitochondrion        ISSN: 1567-7249            Impact factor:   4.160


  12 in total

1.  Design and implementation of the first randomized controlled trial of coenzyme CoQ₁₀ in children with primary mitochondrial diseases.

Authors:  Peter W Stacpoole; Ton J deGrauw; Annette S Feigenbaum; Charles Hoppel; Douglas S Kerr; Shawn E McCandless; Michael V Miles; Brian H Robinson; Peter H Tang
Journal:  Mitochondrion       Date:  2012-09-25       Impact factor: 4.160

2.  Pathomechanisms in coenzyme q10-deficient human fibroblasts.

Authors:  Luis C López; Marta Luna-Sánchez; Laura García-Corzo; Catarina M Quinzii; Michio Hirano
Journal:  Mol Syndromol       Date:  2014-07

3.  Genetics of coenzyme q10 deficiency.

Authors:  Mara Doimo; Maria A Desbats; Cristina Cerqua; Matteo Cassina; Eva Trevisson; Leonardo Salviati
Journal:  Mol Syndromol       Date:  2014-07

Review 4.  Coenzyme Q and mitochondrial disease.

Authors:  Catarina M Quinzii; Michio Hirano
Journal:  Dev Disabil Res Rev       Date:  2010

5.  Oxidized proportion of muscle coenzyme Q10 increases with age in healthy children.

Authors:  Petra Niklowitz; Jürgen Scherer; Frank Döring; Michael Paulussen; Thomas Menke
Journal:  Pediatr Res       Date:  2015-06-24       Impact factor: 3.756

Review 6.  Primary and secondary CoQ(10) deficiencies in humans.

Authors:  Catarina M Quinzii; Michio Hirano
Journal:  Biofactors       Date:  2011-10-11       Impact factor: 6.113

7.  A statistical algorithm showing coenzyme Q10 and citrate synthase as biomarkers for mitochondrial respiratory chain enzyme activities.

Authors:  D Yubero; A Adin; R Montero; C Jou; C Jiménez-Mallebrera; A García-Cazorla; A Nascimento; M M O'Callaghan; J Montoya; L Gort; P Navas; A Ribes; M D Ugarte; R Artuch
Journal:  Sci Rep       Date:  2016-12-05       Impact factor: 4.379

Review 8.  Coenzyme Q10 and Neurological Diseases.

Authors:  Michelangelo Mancuso; Daniele Orsucci; Valeria Calsolaro; Anna Choub; Gabriele Siciliano
Journal:  Pharmaceuticals (Basel)       Date:  2009-12-01

9.  Coenzyme Q10 defects may be associated with a deficiency of Q10-independent mitochondrial respiratory chain complexes.

Authors:  Konstantina Fragaki; Annabelle Chaussenot; Jean-François Benoist; Samira Ait-El-Mkadem; Sylvie Bannwarth; Cécile Rouzier; Charlotte Cochaud; Véronique Paquis-Flucklinger
Journal:  Biol Res       Date:  2016-01-08       Impact factor: 5.612

10.  Skeletal muscle mitochondrial bioenergetics and associations with myostatin genotypes in the Thoroughbred horse.

Authors:  Mary F Rooney; Richard K Porter; Lisa M Katz; Emmeline W Hill
Journal:  PLoS One       Date:  2017-11-30       Impact factor: 3.240
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