Browsing by Subject "excessive alcohol consumption"

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    ACUTE FUNCTIONAL TOLERANCE TO ETHANOL IN MICE SELECTIVELY BRED FOR HIGH AND LOW ALCOHOL PREFERENCE DRINKING
    (Office of the Vice Chancellor for Research, 2012-04-13) Fritz, B.M.; Grahame, N.J.; Boehm II, S.L.
    Propensity to develop acute functional (or within session) tolerance to alcohol (ethanol) may influence the amount of alcohol consumed, with higher drinking associated with greater acute functional tolerance (AFT). The goal of the current study was to assess this potential corre-lated response in second and third replicate lines of mice selectively bred for high (HAP2&3) and low (LAP2&3) alcohol preference drinking. We predicted that HAP mice would develop greater AFT to alcohol’s ataxic actions than LAP mice. Male and female HAP2&3 and LAP2&3 mice were tested for development of AFT on a static dowel task. This task requires that animals maintain balance on a wooden dowel in or-der to prevent falling. On test day, each mouse received one (1.75g/kg; experiment 1) or two (1.75g/kg and 2.0g/kg; experiment 2) injections of ethanol; an initial administration before being placed on the dowel and in another experiment, an additional administration after the first regain of balance on the dowel. Blood samples were tak-en immediately after loss of balance and regain in Experiment, 1 and after first and second regain in Experiment 2. It was found that HAP mice fell from the dowel significantly earlier and at lower BACs than LAP mice following the initial injection of ethanol and were therefore more sensitive. Furthermore, the single-injection experiment detected significantly greater AFT development (BAC2-BAC1) in HAP mice as compared to LAP mice, supporting our hypothesis. This study illus-trates the rapidity with which adaptive pharmacodynamic processes can take place which may contribute to excessive alcohol consumption.
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    Sex differences in cognitive performance and alcohol consumption in High Alcohol-Drinking (HAD-1) rats
    (Elsevier, 2020-03-02) Mittal, N.; Fleming, S.M.; Martinez, A.; Thakore, N.; Bell, Richard L.; Maddox, W.T.; Schallert, T.; Duvauchelle, C.L.; Psychiatry, School of Medicine
    Excessive alcohol (ethanol) consumption negatively impacts social, emotional, as well as cognitive function and well-being. Thus, identifying behavioral and/or biological predictors of excessive ethanol consumption is important for developing prevention and treatment strategies against alcohol use disorders (AUDs). Sex differences in alcohol consumption patterns are observed in humans, primates, and rodents. Selectively bred high alcohol-drinking rat lines, such as the “HAD-1” lines are recognized animal models of alcoholism. The present work examined sex differences in alcohol consumption, object recognition, and exploratory behavior in male and female HAD-1 rats. Naïve male and female HAD-1 rats were tested in an object recognition test (ORT) prior to a chronic 24 h intermittent ethanol access procedure for five weeks. Object recognition parameters measured included exploratory behavior, object investigation, and time spent near objects. During the initial training trial, rearing, active object investigation and amount of time spent in the object-containing section was significantly greater in female HAD-1 rats compared to their male counterparts. During the subsequent testing trial, time spent in the object-containing section was greater in female, compared to male, rats; but active object investigation and rearing did not statistically differ between females and males. In addition, female HAD-1 rats consumed significantly more ethanol than their male counterparts, replicating previous findings. Moreover, across all animals there was a significant positive correlation between exploratory behavior in ORT and ethanol consumption level. These results indicate there are significant sex differences in cognitive performance and alcohol consumption in HAD-1 rats, which suggests neurobiological differences as well.