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Metabolic disorder

A metabolic disorder is a medical disorder which affects the production of energy within individual human (or animal) cells. Most metabolic disorders are genetic, though a few are "acquired" as a result of diet, toxins, infections, etc. Genetic metabolic disorders are also known as inborn errors of metabolism. more...

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In general, the genetic metabolic disorders are caused by genetic defects that result in missing or improperly constructed enzymes necessary for some step in the metabolic process of the cell.

The three largest classes of metabolic disorders are:

  • Glycogen storage diseases -- disorders affecting carbohydrate metabolism
  • Fatty oxidation disorders -- disorders affecting the metabolism of fat components
  • Mitochondrial disorders -- disorders affecting the mitochondria which are the central "powerhouses" of the cells.

A fourth class, the channelopathies (some of which cause periodic paralysis and/or malignant hyperthermia) could be considered to be metabolic disorders as well, though they are not always classified as such. These disorders affect the ion channels in the cell and organelle membranes, resulting in improper or inefficient transfer of ions through the membranes.

There are also a number of other metabolic disorders (such as myoadenylate deaminase deficiency) which do not cleanly fit into any of the above classifications.

Read more at Wikipedia.org


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Metabolic biomarkers of increased oxidative stress and impaired methylation capacity in children with autism
From Alternative Medicine Review, 3/1/05 by S.J. James

James SJ, Cutler P, Melnyk S, et al. Am J Clin Nutr 2004;80:1611-1617.

BACKGROUND: Autism is a complex neurodevelopmental disorder that usually presents in early childhood and that is thought to be influenced by genetic and environmental factors. Although abnormal metabolism of methionine and homocysteine has been associated with other neurologic diseases, these pathways have not been evaluated in persons with autism. OBJECTIVE: The purpose of this study was to evaluate plasma concentrations of metabolites in the methionine transmethylation and transsulfuration pathways in children diagnosed with autism. DESIGN: Plasma concentrations of methionine, S-adenosylmethionine (SAM), S-adenosylhomocysteine (SAH), adenosine, homocysteine, cystathionine, cysteine, and oxidized and reduced glutathione were measured in 20 children with autism and in 33 control children. On the basis of the abnormal metabolic profile, a targeted nutritional intervention trial with folinic acid, betaine, and methylcobalamin was initiated in a subset of the autistic children. RESULTS: Relative to the control children, the children with autism had significantly lower baseline plasma concentrations of methionine, SAM, homocysteine, cystathionine, cysteine, and total glutathione and significantly higher concentrations of SAH, adenosine, and oxidized glutathione. This metabolic profile is consistent with impaired capacity for methylation (significantly lower ratio of SAM to SAH) and increased oxidative stress (significantly lower redox ratio of reduced glutathione to oxidized glutathione) in children with autism. The intervention trial was effective in normalizing the metabolic imbalance in the autistic children. CONCLUSIONS: An increased vulnerability to oxidative stress and a decreased capacity for methylation may contribute to the development and clinical manifestation of autism.

COPYRIGHT 2005 Thorne Research Inc.
COPYRIGHT 2005 Gale Group

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