Edward Majchrowicz scite author profile

This paper reports findings relative to a simple, rapid and reproducible technique for the induction of physical dependence upon ethanol in the rat. The dependence was induced by intragastric intubation of 20% (w/v) ethanol solutions at 9-15 g/kg in 3-5 fractional doses daily for 4 days, maintaining blood ethanol concentrations above a threshold level sufficient to sustain observable sedation throughout the entire period of intubation. Two phases were distinguished during the withdrawal period: 1. Prodromal detoxication, characterized by a spectrum of signs and responses of diminishing severity, related to the decline in blood ethanol concentrations (mg/dl): death, greater than 640; coma, 780-460; loss of righting reflex, 640-400; ataxia 3-1, 570-250; sedation 340-190; neutrality, 220-130; 2. Ethanol dependence, characterized by a spectrum of withdrawal signs and reactions of progressively increasing severity as blood ehtanol concentration approached 100 mg/dl: hyperactivity, tremors, akinesia, spastic rigidity, and induced and spontaneous convulsions. A rapid sucession of two diverse clusters of signs and reactions represents a reversal of the central nervous system function from the extremes of ethanol intoxication (CNS depression) to the extremes of ethanol dependence (CNS hyperexcitability) during the withdrawal period. Both extremes may terminate in death.

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Alterations in the Turnover of Brain Norepinephrine and Dopamine in Alcohol‐dependent Rats

Hunt

Majchrowicz

1974

Journal of Neurochemistry

228

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Abstract— The turnover of brain norepinephrine (NE) and dopamine (DA) was studied in five groups of male Sprague‐Dawley rats under different conditions of alcohol treatment: no treatment, acute treatment while intoxicated, acute treatment subsequent to elimination of alcohol from the blood, alcohol‐dependence while still intoxicated and alcohol‐dependence during a withdrawal syndrome. Turnover was determined from the rate of depletion of brain catecholamine levels after inhibition of tyrosine hydroxylase. In rats given a single dose of alcohol, NE turnover was increased, while DA turnover was unaffected during the few first hours after treatment. After that time the turnover of both NE and DA was reduced. In alcohol‐dependent rats, whether intoxicated or undergoing a withdrawal syndrome, the turnover of NE was increased, while that of DA was decreased. These data suggest that catecholamines may mediate some of the symptoms of the alcohol withdrawal syndrome in the rat.

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Temporal relationship of the induction of tolerance and physical dependence after continuous intoxication with maximum tolerable doses of ethanol in rats

Majchrowicz

Hunt²

1976

Psychopharmacology

111

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Rats were treated by intragastric intubation of a 20% ethanol solution in doses of 9-15 g/kg in 3-5 fractions for 1-7 days. Both tolerance and physical dependence were demonstrated after this treatment with the maximum tolerable doses to only a few days. Tolerance was assessed by signs of severity of intoxication: coma, loss of righting reflex, ataxia-3, ataxia-2, ataxia-1, sedation, and neutrality. During withdrawal, as blood ethanol concentrations approached 100 mg/dl the ethanol dependence phase was characterized by the onset of signs and responses of progressive severity: hyperactivity, tremors, spastic rigidity, and spontaneous convulsive seizures. A significant degree of tolerance was demonstrated for all signs of intoxication after 4 days of treatment, but did not reach maximum level even after 7 days. The severity of the withdrawal reactions intensified progressively to a maximum intensity after 4 days of treatment when as many as 72% of animals exhibited severe withdrawal signs and reactions including convulsive seizures. These different time courses suggest that tolerance and physical dependence are mediated through different mechanisms.

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