Bifrontal and Bitemporal Electroconvulsive Therapy (ECT) in Treatment of Patients With Schizophrenia

Overview

Electroconvulsive therapy has been used in clinical practice since 1938, a number of randomized trials found significant differences favoring ECT in response rates between individuals with depression receiving real and sham ECT. Results of early studies performed on patients with schizophrenia weren't so clear, only few of these trials found appreciable differences between real and sham ECT in clinical outcome. The recent, more reliable studies have found that ECT is efficacious on different symptoms which might be present in the course of schizophrenia, for example, psychotic and affective ones, as well as suicidality. The serious complications of electroconvulsive therapy are rare, however, more frequent side effects may include cognitive impairment and postictal delirium. Thus, the researchers try to develop new, more effective and less harmful procedures of ECT, like bifrontal electrodes. The available studies revealed that bifrontal ECT has equal efficacy to bitemporal ECT with less cognitive impairment, but the literature examining this placement is limited to major depressive disorder and the results are inconsistent. In the worldwide literature there is lack of studies regarding the use of bifrontal ECT among patients with schizophrenia. It is interesting how bifrontal ECT would affect axial symptoms of schizophrenia, since the electrodes in this procedure are placed over the brain areas responsible for negative symptoms. This randomized, double blind study is going to assess whether the bifrontal ECT is more effective in the treatment of positive and negative symptoms of schizophrenia, has less harmful impact on the cognitive functions and decrease the frequency and severity of postictal delirium comparing to the bitemporal ECT. Moreover, as the first worldwide will assess the brain dopaminergic activity with the use of PET in the patients with schizophrenia after ECT and the impact of the ECT on the concentration of such neurotrophins as brain-derived neurotrophic factor-BDNF, neuron specific enolase-NSE and protein S100B.