Overexcitement and Disinhibition
- 1 October 1990
- journal article
- review article
- Published by Royal College of Psychiatrists in The British Journal of Psychiatry
- Vol. 157 (4) , 491-499
- https://doi.org/10.1192/bjp.157.4.491
Abstract
In alcohol withdrawal, abnormalities occur in a number of neurotransmitter systems: there is reduced inhibitory function, and increased activity of excitatory systems. The former, indicated by reduced GABA and alpha-2-adrenoceptor activity, acts in conjunction with, and is exacerbated by, the latter, which itself may be due to the potentiation of NMDA activity by depletion of magnesium, and overactivity of catecholaminergic and CRF neurones. These dysfunctions produce immediate effects and may also contribute to the long-term changes in brain excitability by a kindling-like process. It is possible that early and active treatment may oppose this process. Present strategies for treatment of alcohol withdrawal enhance GABA and alpha-2 inhibitory, or reduce excitatory, mechanisms. Future possibilities include the use of CRF and/or NMDA antagonists.This publication has 106 references indexed in Scilit:
- Role of the receptors in the development and maintenance of hippocampal kindling in ratsNeuroscience Letters, 1988
- Circadian Rhythms of Cortisol During Alcohol WithdrawalAdvances in Alcohol & Substance Abuse, 1988
- Calcium channel antagonists decrease the ethanol withdrawal syndromeLife Sciences, 1986
- Magnesium Deficiency in AlcoholismAlcohol, Clinical and Experimental Research, 1986
- Kindling-like stimulus patterns induce epileptiform discharges in the guinea pig in vitro hippocampusNeuroscience Letters, 1985
- Intracellular demonstration of an N-methyl-d-aspartate receptor mediated component of synaptic transmission in the rat hippocampusNeuroscience Letters, 1985
- Increased GH responsiveness to dopamine receptor stimulation in alcohol addicts during the late withdrawal syndromeLife Sciences, 1983
- Corticotropin-releasing factor: Effects on the sympathetic nervous system and oxygen consumptionLife Sciences, 1982
- Cerebrospinal fluid cyclic nucleotides and GABA do not change in alcohol withdrawalLife Sciences, 1980
- Benzodiazepine receptor loss in brains of mice after chronic alcohol consumptionLife Sciences, 1980