Donita Crippens scite author profile

The effect of withdrawal from chronic morphine or amphetamine treatment on dopamine (DA) neurotransmission in the ventral-medial striatum was studied by use of in vivo microdialysis. There was no effect of 24 h of amphetamine withdrawal on the basal concentration of DA in the ventral-medial striatum. Spontaneous morphine withdrawal (24 h) was associated with a significant decrease in the basal concentration of DA in dialysate, but following morphine replacement and naloxone-precipitated withdrawal variations in withdrawal symptoms were not related to variations in the concentration of DA in dialysate. It is suggested that: (1) the correlation between the extracellular concentration of DA in the ventral-medial striatum and the symptoms of morphine withdrawal may not be indicative of a necessary, causal relationship; and (2) a decrease in the extracellular concentration of DA in the ventral-medial striatum is not a common feature of drug withdrawal syndromes.

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Basal extracellular dopamine in the nucleus accumbens during amphetamine withdrawal: a ‘no net flux’ microdialysis study

Crippens

Camp

Robinson

1993

Neuroscience Letters

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The basal extracellular concentration of dopamine in the nucleus accumbens was quantified using the 'no net flux' microdialysis method, in rats undergoing withdrawal from D-amphetamine. Rats were initially pretreated with saline, or an escalating dose amphetamine regimen known to produce a robust withdrawal syndrome, and extracellular dopamine was quantified 3 or 28 days after the last pretreatment injection. There was no effect of amphetamine pretreatment on the basal extracellular concentration of dopamine in the nucleus accumbens, or on the 'in vivo recovery' of dopamine, estimated by 'no net flux' microdialysis. It is suggested that amphetamine withdrawal is not necessarily accompanied by changes in the basal extracellular concentration of dopamine in the nucleus accumbens.

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Gender Differences in Blood Levels, But Not Brain Levels, of Ethanol in Rats

Crippens

White

George

et al. 1999

Alcoholism Clin & Exp Res

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Female rodents tend to drink more alcohol than males, a difference that emerges at puberty and appears to vary over the female estrous cycle. In addition, male and female rodents display different responses to alcohol; for example, female rats are reported to have faster elimination rates than males. We were interested in whether circulating ovarian hormones influence alcohol distribution to or elimination from the brain of rats, which might explain observed differences in drinking behavior. We administered 0.8 g/kg of ethanol via intraperitoneal injection to age-matched male and female Sprague-Dawley rats. Extracellular brain ethanol was sampled using microdialysis, and vascular ethanol concentrations were determined via tail blood collection, in two separate experiments. Ethanol pharmacokinetic parameters were calculated for both compartments. There were no differences in pharmacokinetic parameters due to gender or estrous cycle stage in brain ethanol concentration profiles. There were, however, differences in blood ethanol profiles: females showed faster elimination rates and a smaller area under the ethanol concentration versus time curve than males. In addition, the maximum concentration varied significantly across the estrous cycle. These results suggest that (1) circulating ovarian hormones do not influence alcohol distribution to the brain, but do influence distribution to more peripheral tissues such as the tail; and (2) apparent differences in tail blood alcohol levels may not reflect differences in brain levels.

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Donita Crippens

Behavioral and Cellular Protection of Rat Dopaminergic Neurons by an Adenoviral Vector Encoding Glial Cell Line-Derived Neurotrophic Factor

Withdrawal from morphine or amphetamine: different effects on dopamine in the ventral-medial striatum studied with microdialysis

Basal extracellular dopamine in the nucleus accumbens during amphetamine withdrawal: a ‘no net flux’ microdialysis study

Gender Differences in Blood Levels, But Not Brain Levels, of Ethanol in Rats

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