Title

Tardive Dyskinesia: Outcome of Antipsychotic Treatment and Brain Damage?

Document Type

Book Contribution

Publication Date

1-1-2014

Description

Tardive dyskinesia (TD), marked by abnormal involuntary movements and frequently expressed as perioral activity, represents an adverse outcome of prolonged antipsychotic therapy, occurring in approximately 5 % of patients per treatment year. Although neuronal mechanisms underlying TD are largely unknown, more recent experimental studies in animal models of TD are providing insight into the neuronal mechanisms associated with TD and implicating newer treatment approaches. It is now evident that a predominance in the ratio of dopamine (DA) D1:D2 receptor (R) activation accounts for induction of perioral movements in rodent models of TD, in nonhuman primate models of TD, and in humans with TD. Experimentally, TD is produced in animal models of TD, in a manner analogous to that by which TD is produced in humans - by continuous and prolonged administration of a DA D2R antagonist (i.e., an antipsychotic drug). More recently, in a rodent model of TD, it has been shown that a lesion of dopaminergic - mainly nigroneostriatal - neurons reduces the time latency for occurrence of TD, also increases the severity of perioral activity, and results in permanence of TD after complete removal of D2R antagonist treatment. The induction of perioral activity is related to DAR supersensitivity but unrelated to numbers of D2R and D2R in the neostriatum, a brain region associated with perioral activity. More apropos, serotoninergic systems are now recognized as having a greater role in effecting perioral activity, and it appears that 5-HT2C receptor antagonists are most effective in abating perioral activity in a rodent model of TD. These processes and mechanisms, topics addressed in this chapter, highlight a newer understanding of mechanisms underlying TD and provide insight into new approaches towards treatment of TD in humans.

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