View clinical trials related to Tourette Syndrome.
Filter by:The study was an open-label, randomized, multicenter, parallel, Phase 2a study in adolescents and adult patients with Tourette syndrome that aimed to explore the efficacy of Sepranolone as a treatment for Tourette syndrome, by reducing the severity and frequency of tics. The total study duration from the Screening Visit to the final follow-up visit was approximately 26 weeks and included the following periods: - A baseline period of 4 weeks between the screening visit (Visit 1) and randomization (4 weeks of baseline period were not needed in well-known adult subjects with stable Tourette syndrome history over the past at least 4 weeks). A school holiday/annual leave period of 2-6 weeks where no study-related activities were done. - A randomized treatment period of 12 weeks - A safety follow-up period of 4 weeks
Tourette syndrome (TS) and chronic tic disorder (CTD) are neurodevelopmental disorders that impact approximately 1% of 5-18 year olds worldwide. Both TS and CTD are characterised by the presence of tics, which are repetitive, purposeless, movements or vocalisations of short duration which can occur many times throughout a day. Tics can have a significant negative impact on daily functioning and quality of life, hence, many seek out approaches to manage and reduce their tics and the urges people with TS or CTD often feel preceding them. The two main evidence-based approaches to treating tics are behavioural therapies and medication; both of which can be effective, but accessibility and waitlists are often an issue for behavioural therapies and side effects are common with medication use. Consequently, there is an urgent need for the development of alternative, safe and accessible treatments. This study aims to examine the effects of rhythmic pulses of electrical stimulation delivered to the wrist in treating tics in people with TS and CTD. In recent work, the investigators have shown that this type of electrical stimulation known as median nerve stimulation (MNS), can substantially reduce tics and related urges during stimulation. The investigators now want to extend this work to examine the effects of the stimulation on a higher number of people, compared to placebo and treatment as usual. The investigators will do this through assessment of symptom change using questionnaires, interviews and videos collection during four weeks of stimulation and two time points afterwards. The investigators have developed a new MNS device for this trial which is portable and easy to use. The primary hypothesis is that active rhythmic MNS will lead to a reduction in tic severity compared to a placebo condition. The secondary hypothesis is that MNS will also have a positive beneficial effect on urges, impairment, well-being and co-occurring Obsessive-Compulsive Disorder (OCD) symptoms compared to both sham stimulation and no stimulation.
Gilles de la Tourette syndrome (GTS; also known as Tourette syndrome) is a congenital neuropsychiatric disorder. Characteristic symptoms are so-called tics-rapid, repetitive movements (motor tics) or vocalizations (vocal tics) that start suddenly without any apparent purpose. Previous research supports the hypothesis of defective regulation (dysregulation) of the dopaminergic system, with particular discussion of dysfunction of tonic/phasic dopamine release or dopaminergic hyperinnervation. Moreover, given the complex interaction of different neurotransmitters, especially in the basal ganglia, it can be assumed that abnormal dopaminergic transmission also affects other transmitter systems, such as glutamate (Glu) or γ-aminobutyrate (GABA). Furthermore, recent results suggest an abnormality in cerebral iron metabolism in GTS. Since iron is accumulated in dopamine vesicles and plays a central role in dopamine synthesis, this observation may also be related to dysfunction of the dopaminergic system. Therefore, in this multimodal study, the investigators aim to combine positron emission tomography (PET), magnetic resonance imaging (MRI), and magnetic resonance spectroscopy (MRS) methods comparing patients with GTS and a control cohort. In Part 2 of this study, MRI and MRS at 7 Tesla are employed to investigate (i) the concentrations of Glu, glutamine and GABA in the corpus striatum and the cortex cingularis anterior and (ii) the subcortical iron concentration.
Gilles de la Tourette syndrome (GTS; also known as Tourette syndrome) is a congenital neuropsychiatric disorder. Characteristic symptoms are so-called tics-rapid, repetitive movements (motor tics) or vocalizations (vocal tics) that start suddenly without any apparent purpose. Previous research supports the hypothesis of defective regulation (dysregulation) of the dopaminergic system, with particular discussion of dysfunction of tonic/phasic dopamine release or dopaminergic hyperinnervation. Moreover, given the complex interaction of different neurotransmitters, especially in the basal ganglia, it can be assumed that abnormal dopaminergic transmission also affects other transmitter systems, such as glutamate (Glu) or γ-aminobutyrate (GABA). Furthermore, recent results suggest an abnormality in cerebral iron metabolism in GTS. Since iron is accumulated in dopamine vesicles and plays a central role in dopamine synthesis, this observation may also be related to dysfunction of the dopaminergic system. Therefore, in this multimodal study, the investigators aim to combine positron emission tomography (PET), magnetic resonance imaging (MRI), and magnetic resonance spectroscopy (MRS) methods comparing patients with GTS and a control cohort. In Part 1 of this study, MRI and MRS at 3 Tesla are employed to investigate (i) the binding potential of D1 dopamine receptors, (ii) the concentrations of Glu, glutamine and GABA in the corpus striatum and the cortex cingularis anterior and (iii) the subcortical iron concentration.
This is a single site, pilot double-blind, randomized, placebo-controlled, cross-over study of 10 participants comparing medicinal cannabis (THC:CBD 10:15 oil) with placebo in reducing tics in adolescents aged 12 - 18 years with severe Tourette Syndrome (TS). The primary objective of this pilot study is to evaluate all elements of the study design (recruitment strategy, study duration, study procedures, study medication tolerance and outcome measures) to assess if they are acceptable and feasible for the conduct of a full-scale randomized controlled trial of THC:CBD 10:15 oil to reduce tic severity in adolescents with TS. The secondary objective of this study is to collect preliminary data on the safety of oral THC:CBD 10:15 oil in adolescents aged 12 to 18 years with TS. As an exploratory aim data from clinician- and parent-rated measures will be compared across the phases to explore for a signal of efficacy on primary (tic reduction) and secondary (premonitory urges, obsessive compulsive behaviors, Attention Deficit Hyperactivity Disorder [ADHD] symptoms) outcome measures.
Medical cannabis (MC) is a standard treatment in Israel to adults with resistant Gilles de la Tourette syndrome (GTS). While small randomized control trials assessed THC efficacy on tics and premonitory urge, only small retrospective studies assessed MC efficacy and tolerability in GTS. Herein, By using an open-label, prospective design, our aim is to determine the preferred method of use, efficacy and tolerability of 12 weeks of treatment with MC in adult patients with GTS.
A recent report (Morera Maiquez et al 2020) described reduced tic severity in people with Tourette syndrome during 1-minute epochs of median nerve stimulation (MNS) at 10 Hz. Among the various questions still to be answered is the question of whether a device to administer MNS is practical for use in a chronic, real-world setting. This study will recruit participants who complete the clinic-based, blinded, randomized controlled trial, https://clinicaltrials.gov/ct2/show/NCT04731714, to determine the real-world usage and apparent utility of median nerve stimulation in people with chronic tics.
The investigator will apply 16 sessions of repetitive transcranial magnetic stimulation (rTMS) over 4 consecutive days for adult patients suffering from Tourette's Syndrome. Following rTMS, patients will undergo 8 sessions of Comprehensive Behavioral Intervention for Tics (CBIT) over 10 weeks via telemedicine. Clinical improvement in tic severity will be the primary outcome measure. Secondary outcome measures including underlying physiological effects will be measured via functional magnetic resonance imaginge (fMRI), high-density electroencephalograhy (HD-EEG), and TMS.
This research study is determining if a drug called Pimavanserin if safe and effective in the treatment of the symptoms of Tourette Syndrome. Pimavanserin is an investigational drug for Tourette Syndrome, which means it has not been approved by the United States Food and Drug Administration (FDA) to treat Tourette Syndrome. Pimavanserin has been approved by the FDA as a treatment for hallucinations in Parkinson's Disease. It is currently marketed under the name NUPLAZID (pimavanserin) capsules by Acadia Pharmaceuticals.
Results from the University of Nottingham suggested that rhythmic median nerve stimulation (MNS) improves tic symptoms in Tourette syndrome (TS). The investigators will (1) provide a first replication of their study, (2) test the hypothesized electrophysiological mechanism and rule out a placebo effect as cause for the symptomatic benefit, and (3) gather information on the duration of effect after the end of stimulation and on individual characteristics that predict improvement with simulation. Completion of these Aims will give a clear go/no-go signal for a future clinical trial of chronic MNS delivered by a yet-to-be-developed wristwatch-style device. NOTE: This study is not intended to evaluate a specific device for future use. Rather it is a study to determine the action of pulsed electrical stimulation on tic symptoms and to gain early evidence of effectiveness. This is a non-significant risk device study.