View clinical trials related to Catatonia.
Filter by:Evaluation effectiveness and safety of TMS in subjects with catatonia
Despite the significant morbidity and mortality associated with catatonia in autism, no diagnostic research has attempted to identify biomarkers for catatonia. This application will use a participant's own individual brain magnetic resonance image to target the primary motor strip with transcranial magnetic stimulation; to determine if hyper-excitability of the brain directly correlates with symptoms of catatonia and social-emotional impairment in autism. Completion of this project would result in the first study to associate hyper-excitability of the brain with catatonia and core features of autism; findings which are likely to have a significant impact on the health and well-being of autistic individuals.
Electroconvulsive therapy (ECT) is a highly effective treatment for some psychiatric disorders like major depressive or bipolar disorder, but may lead to agitation and delirium after the procedure in up to 65% of patients. This can have negative side effects and be dangerous for patient and attending staff. Clonidine, a central-acting alpha2-receptor agonist, is an approved antihypertensive medication with known sedative side effects. Clonidine's newer but more expensive successor, dexmedetomidine, has recently shown its potential to reduce this kind of delirium. The investigators therefore hypothesise that pre-treatment with 2 mcg/kg clonidine prior to electroconvulsive therapy will significantly reduce the incidence of postictal delirium. This potentially makes a highly efficient treatment for patients with otherwise refractory psychiatric illness safer and more accessible.
Catatonia is a severe form of psychomotor disturbance with a heterogenous presentation. It affects approximately 10% of acute psychiatric inpatients. According to the fifth edition of DSM-5 the diagnosis of catatonia can be made when three or more symptoms from the twelve following are present : catalepsy, waxy flexibility, stupor, agitation, mutism, negativism, posturing, mannerisms, stereotypies, grimacing, echolalia, echopraxia. It can occur in various psychiatric diseases, including mood disorders or schizophrenia, but also in various non-psychiatric disorders [metabolic disturbances, viral infections (including HIV), typhoid fever, heat stroke, and autoimmune disease]. Benzodiazepines, especially LORAZEPAM, are the most common initial treatment, with a remission rate of approximately 70-80 %, regardless of the cause or the clinical manifestations. This first line treatment is titrated gradually according to the therapeutic response over a few days up to 20-25 mg per day. Electroconvulsive therapy (ECT) is initiated on patients with catatonia who do not respond to benzodiazepines. Interestingly, pharmacogenetic variants can alter the metabolism of lorazepam (e.g., the UGT2B15 * 2 allele slows it down). The main objective of this study is to assess the link between clinical response to lorazepam, residual plasma concentrations of lorazepam after 72 hours of fixed dosage, and the existence of genetic polymorphisms modifying the metabolism of lorazepam. Our hypothesis is that non-responding patients have lowered blood concentrations of lorazepam associated to a genetic profile of rapid metabolism. Evaluating the predictive factors of the response to treatment would allow early and precise identification of non-responder patients in order to adapt their first-line treatment.
The aim of this study is to identify specifics of pre-ECT assessments and ECT application in European psychiatric services. We will engage European centres that provide ECT for psychiatric patients and for psychiatric indications. It could bring better insights on current standards and possibly give some further improvements in the field of European ECT practices.