Alcoholism, clinical and experimental research
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Alcoholism is a chronic relapsing disorder characterized by compulsive drinking, loss of control over intake, and impaired social and occupational function. Animal models have been developed for various stages of the alcohol addiction cycle with a focus on the motivational effects of withdrawal, craving, and protracted abstinence. A conceptual framework focused on allostatic changes in reward function that lead to excessive drinking provides a heuristic framework with which to identify the neurobiologic mechanisms involved in the development of alcoholism. ⋯ During the development of alcohol dependence, corticotropin-releasing factor may be recruited, and the neuropeptide Y brain antistress system may be compromised. These changes in the reward and stress systems are hypothesized to maintain hedonic stability in an allostatic state, as opposed to a homeostatic state, and as such convey the vulnerability for relapse in recovering alcoholics. The allostatic model not only integrates molecular, cellular, and circuitry neuroadaptations in brain motivational systems produced by chronic alcohol ingestion with genetic vulnerability but also provides a key to translate advances in animal studies to the human condition.
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Alcohol. Clin. Exp. Res. · Feb 2003
Ego depletion and self-regulation failure: a resource model of self-control.
Effective self-regulation is an important key to successful functioning in many spheres, and failed self-regulation may be centrally conducive to substance abuse and addiction. The program of research summarized here indicates that self-regulation operates as a limited resource, akin to strength or energy, especially insofar as it becomes depleted after use-leaving the depleted self subsequently vulnerable to impulsive and undercontrolled behaviors (including increased consumption of alcohol). The self's resources, which are also used for decision-making and active responding, can be replenished by rest and positive emotions.