BACKGROUND: Individuals in short-term abstinence from chronic alcohol consumption commonly have neuropsychological impairments with parallel abnormalities in brain structure. Stable, long-term sobriety often results in improvements in both brain structure and function, although the mechanisms underlying these changes are currently not well understood. METHODS: To investigate further the neurobiological underpinnings of alcohol-associated brain abnormalities in short-term and long-term abstinence from alcohol, proton magnetic resonance spectroscopy (echo time, 35 msec; repetition time, 1.5 sec) was used to assay metabolites in the anterior centrum semiovale, anterior cingulate gyrus, and right thalamus of two groups of non-Korsakoff alcoholic men, at different stages of abstinence, compared with a control group of alcohol-nonabusing men. Absolute concentrations of N-acetylaspartate, choline, myo-inositol, and creatine were measured in four recently detoxified alcoholics (mean age, 48.7 years; median abstinence, 41.5 days), five long-term abstinent alcoholics (mean age, 45.1 years; median abstinence, 1.7 years), and five nonalcoholic controls (mean age, 45.0 years). RESULTS: Although there were no between-group differences in concentrations of N-acetylaspartate, choline, or creatine, recently detoxified alcoholics had significantly higher myo-inositol in the thalamus, compared with controls and long-term abstinent alcoholics, and significantly higher myo-inositol in the anterior cingulate gyrus, compared with the controls. CONCLUSIONS: Elevations in myo-inositol in recently detoxified alcoholics are compatible with an acute alcohol cytotoxicity model. myo-Inositol is elevated in hyperosmolar states such as hypernatremia, renal failure, and diabetes; alcohol-induced hyperosmolarity may trigger accumulation of myo-inositol to stabilize the intracellular environment. Increases in myo-inositol may also reflect proliferation or activation of glia. The reduction of myo-inositol to control group levels in long-term abstinent alcoholics may reflect osmolar stability in abstinent alcoholics and/or a reduction in glial cell activation.
BACKGROUND: Individuals in short-term abstinence from chronic alcohol consumption commonly have neuropsychological impairments with parallel abnormalities in brain structure. Stable, long-term sobriety often results in improvements in both brain structure and function, although the mechanisms underlying these changes are currently not well understood. METHODS: To investigate further the neurobiological underpinnings of alcohol-associated brain abnormalities in short-term and long-term abstinence from alcohol, proton magnetic resonance spectroscopy (echo time, 35 msec; repetition time, 1.5 sec) was used to assay metabolites in the anterior centrum semiovale, anterior cingulate gyrus, and right thalamus of two groups of non-Korsakoff alcoholic men, at different stages of abstinence, compared with a control group of alcohol-nonabusing men. Absolute concentrations of N-acetylaspartate, choline, myo-inositol, and creatine were measured in four recently detoxified alcoholics (mean age, 48.7 years; median abstinence, 41.5 days), five long-term abstinent alcoholics (mean age, 45.1 years; median abstinence, 1.7 years), and five nonalcoholic controls (mean age, 45.0 years). RESULTS: Although there were no between-group differences in concentrations of N-acetylaspartate, choline, or creatine, recently detoxified alcoholics had significantly higher myo-inositol in the thalamus, compared with controls and long-term abstinent alcoholics, and significantly higher myo-inositol in the anterior cingulate gyrus, compared with the controls. CONCLUSIONS: Elevations in myo-inositol in recently detoxified alcoholics are compatible with an acute alcoholcytotoxicity model. myo-Inositol is elevated in hyperosmolar states such as hypernatremia, renal failure, and diabetes; alcohol-induced hyperosmolarity may trigger accumulation of myo-inositol to stabilize the intracellular environment. Increases in myo-inositol may also reflect proliferation or activation of glia. The reduction of myo-inositol to control group levels in long-term abstinent alcoholics may reflect osmolar stability in abstinent alcoholics and/or a reduction in glial cell activation.
Authors: Stefan Gazdzinski; Timothy C Durazzo; Ping-Hong Yeh; Dawn Hardin; Peter Banys; Dieter J Meyerhoff Journal: Psychiatry Res Date: 2008-02-28 Impact factor: 3.222
Authors: Brian C Schweinsburg; Michael J Taylor; Omar M Alhassoon; Raul Gonzalez; Gregory G Brown; Ronald J Ellis; Scott Letendre; John S Videen; J Allen McCutchan; Thomas L Patterson; Igor Grant Journal: J Neurovirol Date: 2005-08 Impact factor: 2.643
Authors: D J Meyerhoff; R Blumenfeld; D Truran; J Lindgren; D Flenniken; V Cardenas; L L Chao; J Rothlind; C Studholme; M W Weiner Journal: Alcohol Clin Exp Res Date: 2004-04 Impact factor: 3.455