View clinical trials related to Obsessive-Compulsive Disorder.
Filter by:The investigators previously showed that deep brain stimulation (DBS) in the bed nucleus of the stria terminalis (BNST) reduces symptoms in patients with severe obsessive-compulsive disorder (OCD). Although most patients now receive bilateral stimulation, multiple studies suggest that stimulation of the left BNST might be equally effective. In this study, the investigators will evaluate the effect of unilateral stimulation in OCD patients who currently receive bilateral BNST stimulation to treat their symptoms. We hypothesize that unilateral stimulation of the left BNST will reduce anxious and depressive symptoms, compared to no stimulation. The study entails a double-blinded, randomized cross-over design during which every patient undergoes four stimulation conditions: stimulation of the left, right or bilateral BNST, or no stimulation. During every condition, which takes about fifteen minutes, the patient is exposed to an individually determined stimulus that normally elicits OCD-related symptoms. The patients are then asked to fill out a short questionnaire to evaluate the severity of their symptoms during the four conditions. At the end of the cross-over phase, the stimulation parameters of each patient are restored.
This study implements a parent-led, flexible, individually-tailored cognitive-behavioral intervention for children with ASD and anxiety.
This randomized pilot study examines a graduated behavioral treatment approach for youth with obsessive compulsive disorder. Youth will be randomized to receive treatment in the community or at the hospital. In the first stage, youth receive an intro session and two 3-hour ERP sessions. Youth will be assessed for OCD recovery. Recovered youth enter follow-up. Still affected youth enter the second stage, where they will can select to receive up to four additional ERP sessions (one per week). In follow-up, youth will receive three 30 minute weekly calls and will be reassessed at 1- and 6-months following treatment.
Background: Humans live in symbiosis with microbes and their implication for health and disease is evident. The importance of microbiome-gut-brain axis in psychiatric disorders is an area of increasing research interest. OCD is a promising target for microbiome research as Pediatric Acute-onset Neuropsychiatric Syndrome (PANS)/ Pediatric autoimmune neuropsychiatric disorders associated with streptococcal infections (PANDAS) are reactions to infectious agents precipitating acute onset of severe OCD symptoms. Furthermore, preliminary evidence has associated probiotic treatment with alleviation of OCD symptoms. We propose the first clinical study on the microbiome and its effects on OCD patients. Aim: To analyze the gut microbiota in patients with OCD compared with healthy matched controls and assess changes in microbial composition following treatment. Outcome measures: Differences in alpha diversity, beta diversity, and taxa abundance of bacterial groups (at the phylum, class, order, family, genus and species levels) and severity of OCD symptoms. Moreover, functional profiling will be conducted. Methods: Our aim is to enroll 32 OCD patients and 32 matched controls. Shotgun metagenomic sequencing will be used. Sequenced data will be processed followed by non-parametric statistical testing. Significance: gut microbiome in patients with OCD beofre and after ERP treatment has never been done before. The microbial composition may impact on OCD symptoms, severity, and chronicity and could inform future therapeutic possibilities.
Cognitive Behavioral Therapy with fear provoking exposures is the most effective therapy for anxiety disorders. The investigators aim to enhance this therapy with the use of virtual reality exposures. The human subjects study will test the effects of using VR for exposures compared to traditional imaginal exposures on anxiety symptom improvement, functioning, child engagement in an response to exposures, completion of exposure homework between treatment sessions, and length of treatment in weeks and length of treatment among children with anxiety disorders and/or obsessive compulsive disorder. The funding award supports the development of the technology and the human subjects study. The subcontract to Mayo supports expert input to identify clinically relevant content for therapeutic videos on the VR system and the human subjects study to test the VR system.
Obsessive-compulsive disorder (OCD) is a neuropsychiatric disease characterised by intrusive, recurrent and persistent thoughts, urges or images (obsessions) and the resulting excessive repetitive behaviours or mental acts according to rigid rules unrealistically aimed at reducing distress (compulsions). Its lifetime prevalence in the general population is usually estimated between 1 - 3% (Ruscio, Mol Psychiatry, 2010). Despite appropriate pharmacological and cognitive-behavioural treatments, it is commonly estimated that 10% of patients are therapy-refractory and that among improved or recovered patients, sustained efficacy is uncertain. For treatment refractory OCD patients, a neurosurgical treatment by deep brain stimulation (DBS), has emerged in the late 1990s as a new therapeutic option (Nuttin et al, Lancet, 1999). The objective of the current study is to report the long-term treatment effects (safety and effectiveness) of DBS from the cohort of six severe and therapy-refractory OCD patients implanted at the French university hospital of Montpellier since 2003.
Phase II of this study will examine the efficacy of the OC-Go application via a randomized controlled trial comparing standard exposure and response prevention (ERP) treatment for pediatric obsessive compulsive disorder (OCD) to exposure/response prevention (ERP) augmented with OC-Go. A cross-over design will be implemented for these 12 sessions of treatment, in which participants that were randomized to standard ERP will receive OC-Go augmented ERP for the second half of treatment, and vice versa. Efficacy will be investigated in a sample of 32 children with OCD.
This study will use magnetic resonance imaging (MRI) to assess the function and structure of overlapping task control circuits in children with a range of Obsessive-Compulsive symptoms (OCS). The functioning of task control circuits will be assessed using the well-validated Multisource interference task (MSIT). This study will also assess functional and anatomical connectivity within task control circuits in the same children, and determine whether disturbances in these overlapping circuits are associated with Obsessive-Compulsive Disorder (OCD) symptom severity. Behavioral measures will be administered to further assess regulatory, learning and memory functions. Children with OCD will then be offered a standard course of up to 12 cognitive behavioral therapy (CBT), either via remote video conference sessions or in person visits when clinically indicated, before scanning (along with age-and gender-matched control participants) in order to assess how these circuits may change with treatment. Children with subclinical OC symptoms will be offered referral for treatment on an as-needed basis. In addition, de-identified data may be used in the future to conduct secondary data analyses. As more about OC symptoms and neurobiological mechanisms of interest in the current study are understood, data may be used to answer questions beyond those described in this protocol. All study procedures will be conducted on-site at Columbia University/the New York State Psychiatric Institute (New York, NY) and the University of Michigan's outpatient Child and Adolescent Psychiatry (Ann Arbor, Michigan).
Psychiatric disorders characterized by pathological fear and anxiety are common and often disabling. Despite their limitations, exposure therapies are among the most efficacious treatments for these disorders. Extinction learning is thought to be a core mechanism of therapeutic exposure. Extinction learning is mediated by a well-defined circuit encompassing the medial prefrontal cortex (mPFC), amygdala, and hippocampus. This raises the exciting possibility that direct engagement of this circuitry might enhance the response to therapeutic exposure. Transcranial direct current stimulation (tDCS) is a neuromodulation technology that can augment brain plasticity, learning, and memory. The proposed study will evaluate whether tDCS can improve therapeutic learning and memory processes among participants diagnosed with obsessive-compulsive disorder (OCD) This study aims to use tDCS to improve learning and memory processes within the context of an exposure laboratory challenge. Participants diagnosed with OCD will complete a two-day experimental study. On day 1, participants will receive sham (placebo) or active tDCS followed by approximately 50-minutes of individualized exposure. on day 2, participants will return to complete an additional 50-minutes of exposure. Subjective distress will be repeatedly monitored during exposure to allow for the modeling of within-trail and within-session learning and between-session recall of learning.
The objective of this study is to compare the rate and extent of absorption of paroxetine hydrochloride 20 mg tablets (test) and Paxil® (reference) administered as 20 mg tablet under fed conditions.