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Journal Of Chronic Fatigue Syndrome Volume 5, 1999 - Issue 1
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Original Article

In vitro Study of Muscle Aerobic Metabolism in Chronic Fatigue Syndrome

Wilhelmina M. H. Behan Glasgow University, Glasgow, Scotland, UK
,
Ian J. Holt Royal Society University Research Fellow, Department of Biochemical Medicine, Ninewells Medical School, Dundee, Scotland, UK
,
David H. Kay Western Infirmary, Glasgow, Scotland, UK
&
Pamela Moonie Department of Biochemical Medicine, Ninewells Medical School, Dundee, Scotland, UK
Pages 3-16 | Published online: 04 Dec 2011

References

  • Holmes GP, Kaplan JE, Gantz NM, et al. Chronic fatigue syndrome. A work-ing case definition. Ann Intern Med 1988, /08;387–389.
  • Fukuda K, Straus SE, Hickie I, et al. The chronic fatigue syndrome: A com-prehensive approach to its definition and study. Ann Intern Med 1994, 121;953–959.
  • Behan PO, Behan WMH. Postviral Fatigue Syndrome. CRC Crit Rev Neuro-biol 1988, 4, 157–178.
  • Edwards RHT, Gibson H, Clague JE, et al. Muscle histopathology and physi-ology in chronic fatigue syndrome. In: Chronic Fatigue Syndrome. Eds. Dawson & Sabin. Wiley, Chichester (Ciba Foundation Symposium 173) 1993, 102–131.
  • Lloyd AR, Hales JP, Gandevia SC. Muscle strength, endurance and recovery in the post-infection fatigue syndrome. J Neurol, Neurosurg and Psychiat 1988, 5/;1316–1322.
  • Stokes MJ, Cooper RG, Edwards RHT. Normal muscle strength and fatigu-ability in patients with effort syndromes. Br Med J 1988, 297; 1014–1017.
  • Riley MS, O'Brien CT, McCluskey DR, et al. Aerobic work capacity in pa-tients with chronic fatigue syndrome. Br Med J 1990, 301;953–956.
  • Lloyd AR, Gandevia SC, Hales JP. Muscle performance, voluntary activation, twitch properties and perceived effort in normal subjects and patients with the chron-ic fatigue syndrome. Brain 1991, //4;85–98.
  • Kent-Braun JA, Sharma KR, Weiner MW, et al. Central basis of muscle fa-tigue in chronic fatigue syndrome. Neurology 1993, 43;125–131.
  • Gibson H, Carroll N, Clague JE, et al. Exercise performance and fatiguability in patients with chronic fatigue syndrome. J Neurol, Neurosurg and Psychiat 1993, 56;993–998.
  • Arnold DL, Bore PJ, Radda GK, et al. Excessive intracellular acidosis of skel-etal muscles in exercise in a patient with a postviral exhaustion fatigue syndrome. Lancet /, 1984, 1367–1369.
  • Arnold DL, Bore PJ, Radda GK, et al. Excessive intracellular acidosis of skel-etal muscle on exercise in the post-viral exhaustion/fatigue syndrome: a 31P NMR study. Proc. 3rd Annual Meeting of the Society for Magnetic Resonance in Medicine, New York 1984:12–13.
  • Barnes PRJ, Taylor DJ, Kemp GJ, et al. Skeletal muscle bioenergetics in the chronic fatigue syndrome. J Neurol Neurosurg and Psychiat 1993, 56;679–683.
  • Wong R, Lopaschuk G, Zhu G et al. Skeletal muscle metabolism in the chron-ic fatigue syndrome. In vivo assessment by 31P nuclear magnetic resonance spectros-copy. Chest 1992, /02;1716–1722.
  • McCully KK, Natelson BH, Iotti S, et al. Reduced oxidative muscle metabo-lism in chronic fatigue syndrome. Muscle and Nerve 1966, /9;621–625.
  • Robinson BH, Glerum DM, Chow W, et al. The use of skin fibroblast cultures in the detection of respiratory chain defects in patients with lacticacidemia. Paediatr Res 1990, 28;549–555.
  • Behan WM11, More IAR, Behan PO. Mitochondrial abnormalities in the post-viral fatigue syndrome. Acta Neuropathol 1991, 83;61–65.
  • Noll F. Methods in Enzymatic Analysis. Ed. HU Bergmeyer. Verlag-Chemie, Weinham, FRC. Academic, New York, 1974, Vol 3 pp. 1475–1479.
  • Granger DL, Lehninger AL. Sites of inhibition of mitochondrial electron transport in macrophage-injured neoplastic cells. J Cell Biol 1982, 95;527–535
  • Dunbar DR, Moonie PA, Zeviani M, et al. Complex I deficiency is associated with 3243G:C mitochondrial DNA in osteosarcoma cells hybrids. Hum. Mol. Genet. 1996, 5;123–129.
  • Wharton DC, Tzagoloff A. Cytochrome oxidase from beef heart mitochon-dria. Methods Enzymol 1967, /0; 245–250.
  • Sambrook J, Fritsch EP, Maniatis I. Molecular Cloning: A Laboratory Manu-al. Cold Spring Harbour Laboratory Press 1989.
  • Lane RJM, Burgess AP, Flint J, et al. Exercise responses and psychiatric disor-der in chronic fatigue syndrome. Br Med J 1995, 311;544–545.
  • Morgan-Hughes JA. In, Recent Advances in Clinical Neurology, Ed. WB Ma-thews & GH Glaser. 1. Defects of the energy pathways of skeletal muscle, No. 3, Churchill Livingstone, Edinburgh, London 1982, pp.1–46.
  • Holt IJ, Dunbar DR, Jacobs HT. Behaviour of a population of partially dupli-cated mitochondrial DNA molecules in cell culture: segregation, maintenance and recombination dependent upon nuclear background. Hum Mol Genet 1997, 6; 1251–1260
  • Glerum M, Robinson BH, Spratt C, et al. Abnormal kinetic behaviour of cy-tochrome oxidase in a case of Leigh's disease. Am J Hum Genet 1987, 41;594–503.
  • Robinson BH, De Meirleir L, Glerum M, et al. Clinical presentations of pa-tients with mitochondrial respiratory chain defects in NADH Coenzyme Q reductase and cytochrome oxidase: clues to the pathogenesis of Leigh Disease. J Pediatr 1987, //0;216–222.
  • Robinson BH, MacKay N, Goodyer P, et al. Defective intra-mitochondrial NADH oxidation in skin fibroblasts from an Want with fatal neonatal lacticacidae-mia. Am J Hum Genet 1985, 37; 938–946.
  • Glerum M, Yanamura W, Capaldi R, et al. Characterization of cytochrome ox-idase mutants in human fibroblasts. FEBS Lett 1988, 236; 100–104.
  • Shimoizumi H, MY, Ohta S, Kagawa Y, et al. Cytochrome c oxidase-deficient myogenic cell lines in mitochondrial myopathy. Ann Neurol 1989, 25; 615–621.
  • Pliophys AV, Pliophys S. Electron-microscopic investigation of muscle mito-chondria in chronic fatigue syndrome. Neuropsychobiology 1995, 32;175–181.
  • Zhang C, Baumer A, Mackay IR, et al. Unusual pattern of mitochondrial DNA deletions in skeletal muscle of an adult human with chronic fatigue syndrome. Hum Mol Genet 1995, 4;751–754.
  • Behan WWI, Gow JW, Simpson K, et al. Mitochondrial findings in the chronic fatigue syndrome. J Pathol. 1994, 173;S17.
  • Kuratsune H, Yamaguti M, Misaki H, et al. Acylcamitine deficiency in chron-ic fatigue syndrome. Chin Inf Dis 1994, 18 (Supp11), S62–67.
  • Holt IJ, Harding AE, Cooper JM, et al. Mitochondrial myopathies: clinical and biochemical features of 30 patients with major deletions of muscle mitochondrial DNA. Ann Neurol. 1989; 26;699–708.
  • Kelly KJ, Garland JS, Tang TT, et al. Fatal rhabdomyolysis following influen-za infection in a girl with familial camitine palmityl transferase deficiency. Pediat-rics, 1989, 84; 312–316.
  • Tonin P, Lewis P, Servidei S. Metabolic causes of myoglobinuria. Ann Neurol. 1990; 27;181–185.
  • Behan WMH, More IAR, Downie I, et al. Mitochondrial studies in the chronic fatigue syndrome. EOS J Immunol. Immunopharmacol. 1995 /5;36–39.
  • Peam J. Chronic fatigue syndrome-chronic ciguatera poisoning as a differen-tial diagnosis. Med J Australia 1997, 166: 309–310
  • Cullom ME, Heher KL, Miller NR, et al. Leber 's hereditary optic neuropathy masquerading as tobacco-alcohol amblyopia. Arch Ophthalmol 1993; 111; 1482–1485.
  • Prezant TR, Agapian JV, Bohlman MC et al. Mitochondrial ribosomal RNA mutation associated with both antibiotic-induced and non-syndromic deafness. Neurol-ogy 1991, 41; 300–305.
  • DiMauro S, Nicholson JF, Hayes AP, et al. Benign infantile mitochondria' myo-pathy due to reversible cytochrome c oxidase deficiency. Ann Neurol 1983, 14, 226–234.
  • Chaudhuri A, Behan WWI, Behan PO. Chronic fatigue syndrome. Proc Roy Coll Physicians Edinb 1998, 28; (in press).

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