Effects of Clozapine on Cortical Inhibition

Abstract

Abstract Background Preclinical and clinical investigations have revealed deficits in cortical inhibition in individuals with schizophrenia. Transcranial magnetic stimulation, a commonly used noninvasive measurement technique, is used for assessing these deficits. Limited research has been conducted on the effects of antipsychotic medications on cortical inhibition. This study aimed to evaluate the effects of clozapine on cortical inhibition with transcranial magnetic stimulation longitudinally and compare it with unaffected controls. Methods Ten patients who started clozapine were assessed at baseline, with 8 reassessed after 4 months. Eight age- and sex-matched unaffected controls were included. Psychopathology, neurocognitive performance, formal thought disorder, and disability were assessed, and the cortical excitability parameters (resting motor threshold, cortical silent period, short-interval intracortical inhibition, intracortical facilitation, and short-latency afferent inhibition [SAI]) were measured at baseline and four months after clozapine treatment. Results Resting motor threshold, ICF, and SAI were significantly different between patients and controls at baseline, whereas resting motor threshold, SAI, and ICF became similar to controls after clozapine with only ICF having a trend for significance. Clozapine prolonged cortical silent period significantly in the patients. Conclusions This is the first study to investigate the effect of clozapine on SAI, a potential cholinergic biomarker, and the first follow-up study to investigate the relationship between the effects of clozapine on cortical inhibition and cognition. Clozapine seems to cause an increase in cortical inhibition through GABAergic and possibly cholinergic mechanisms. However, additional follow-up studies with larger sample sizes are required to reach more robust conclusions.