View clinical trials related to Catatonia.
Filter by:In its 2012's release guideline on therapy for schizophrenia, the EMA joined the FDA to acknowledge primary and persistent negative symptoms (PNS) as an unmet need in the treatment of schizophrenia. Functional brain imaging studies showed a correlation between NS and reduced perfusion in the left dorsolateral prefrontal cortex (L-DLPFC). Pre-frontal activation (PFA) using repetitive transcranial magnetic stimulation (rTMS) significantly improve PNS (meta-analyses: effect size SMD = 0.55, ΔPANSS-N = -2.5). Yet schizophrenia is likely to gather many different natural entities of distinct pathophysiological mechanisms. Pursuing a one-size-fits-all approach will not adapt to this diversity and might account for inconsistencies in the results. Progressive periodic catatonia (PPC) is a rare psychotic phenotype (0.1 - 0.5 ‰) which has been shown to be longitudinally stable (30-years follow-up) and consistent within families (about 1 third of first-degree relatives are affected). The core of this phenotype is a disintegration of psychomotor processes which progresses with each relapse, resulting in a "deficit state", i.e., PNS, responsible for most social and occupational disabilities. The investigators and others reported PPC to come with hyper-perfusions in premotor cortices compared to controls or non-PPC chronic psychoses (nPPC). These hyper-perfusions discriminate PPC from nPPC or depressive patients (Sensitivity = 82%; Specificity = 95%). Last, in independent proof-of-principle studies the investigators and others have shown that premotor inhibition (PMI) using rTMS significantly improved PNS in PPC and that the most dramatic improvements followed personalized accelerated rTMS protocols (5 days of rTMS; CGI-improvement = 2 which is equivalent to ΔPANSS-N = -10; lasting > 1 month - vs virtually no change for PFA). The efficacy index was very good (no side effects). the investigators hypothesize that: (1) in PPC, add-on personalized premotor inhibition (PMI) is more effective in reducing PNS than L-DLPFC activation (PFA); (2) patient stratification is relevant as personalized PMI will not be as effective in the nPPC group (even expected to be less effective than PFA).
Nearly 10% of people hospitalized in psychiatry have a catatonic syndrome. The treatment of this syndrome is based on lorazepam and electro-convulsive therapy (ECT) in drug-resistant forms. ECT is the reference therapy, very effective in catatonia, but remain difficult to access due to the technical platform required for their realization, leading to delays in the implementation of the treatment responsible for an increase in the morbidity and mortality of catatonia. In this context, a new therapeutic tool available in the treatment of drug-resistant catatonia would improve the prognosis of catatonia. Transcranial direct current stimulation (tDCS) is an alternative, non-invasive brain stimulation technique that does not require anesthesia, and inexpensive and has been shown to be effective in depression and schizophrenia. A series of clinical cases suggests its potential efficacy in catatonia. Our objective is to evaluate the efficacy of tDCS in catatonia in a clinical trial.