Nora D Volkow et al., 2010
http://europepmc.org/articles/PMC2948245?pdf=render
Abstract
Based on brain
imaging findings, we present a model according to which addiction emerges as an
imbalance in the information processing and integration among various brain
circuits and functions. The dysfunctions reflect (a) decreased sensitivity
of reward circuits, (b) enhanced sensitivity of memory circuits to conditioned
expectations to drugs and drug cues, stress reactivity, and (c) negative mood,
and a weakened control circuit. Although initial experimentation with a
drug of abuse is largely a voluntary behavior, continued drug use can
eventually impair neuronal circuits in the brain that are involved in free
will, turning drug use into an automatic compulsive behavior. The ability
of addictive drugs to co-opt neuro transmitter signals between neurons
(including dopamine, glutamate, and GABA) modifies the function of different
neuronal circuits, which begin to falter at different stages of an addiction
trajectory. Upon exposure to the drug, drug cues or stress this results in
unrestrained hyperactivation of the motivation/drive circuit that results
in the compulsive drug intake that characterizes addiction.
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