View clinical trials related to Tourette Syndrome.
Filter by:Tics are the core symptom of Tourette syndrome. These are repetitive, sudden, semi-voluntary movements or sounds. In some children, these tics can be especially bad and require treatment, however, options are limited. It is only with time and practice that youth with Tourette syndrome are better able to suppress their tics. For these reasons, new interventions are needed. The investigators will target a brain region involved in tics called the supplementary motor area. Using low frequency repetitive transcranial magnetic stimulation, the investigators will inhibit the activity, in a similar way to the tic suppression that develops with age. The investigators propose the following objectives: (Aim 1) The investigators hypothesize that Tourette syndrome symptom severity (as measured by the Yale Global Tic severity Scale) will decrease with low frequency repetitive transcranial magnetic stimulation targeting the supplementary motor area. (Aim 2) The investigators further hypothesize that improvement in Tourette syndrome symptoms will be moderated by low frequency repetitive transcranial magnetic stimulation induced changes in GABA and glutamate in the supplementary motor area, and changes in the functional connectivity between the supplementary motor area and primary motor cortex. Eleven children (7-12 years of age) with Tourette syndrome will be undergo low frequency repetitive transcranial magnetic stimulation (five times a week for three weeks). After the three weeks, they will look for changes in tic severity and brain chemistry and function. By developing a novel avenue for treating Tourette syndrome, they can directly impact the care of children by reducing the severity of tics and improving quality of life.
Purpose: To develop a model for internet-based support and coaching to young adults with neuropsychiatric disorders (NPD). To improve the individual's psychosocial functioning and his/her understanding of how he/she is functioning. NPD comprise problems with social interaction, attention, impulse control and hyperactivity. The most common NPD diagnoses are ADHD (attention deficit hyperactivity disorder), autism spectrum condition (ASC) and Tourette's disorder (TD). In this study the investigators use Internet-based treatment for young adults with NPD. Method: Support/coaching by using communication over the Internet (chat and e-mail) with individuals with NPD. Twice every week during 8 weeks, young adults with NPD are offered support and coaching over the Internet by psychologist/educational therapist with great experience from NPD. The individuals are assessed before and after treatment pertaining to quality of life, sense of coherence, self-esteem, depressive and anxiety symptoms, and parents' evaluation of the young adult's situation.
This is a Phase 1b, open-label, multiple-dose study of the safety, pharmacokinetics (PK), and pharmacodynamics (PD) of NBI-98854 in a total of 36 pediatric subjects with Tourette syndrome (TS). The study will be conducted in approximately 18 male and female children (6 to 11 years of age) and approximately 18 male and female adolescents (12 to 18 years of age). Both age groups will be divided equally into 3 dosing cohorts with 6 subjects each. Ascending doses will be evaluated as part of a staggered-cohort design. Study drug will be administered in each cohort for 14 consecutive days.
The purpose of this clinical study is to verify the long term effectiveness and safety of a bilateral deep brain stimulation (DBS) produced by Beijing PINS Medical Co., Ltd. as a treatment option for patients with cognitive, behavioral, and functional disability of Tourette Syndrome.
The purpose of this research is to examine the preliminary efficacy, feasibility, and acceptability of Voice over Internet Protocol delivered behavior therapy for Tourette Syndrome through in a randomized waitlist-controlled trial.
This is an open-label study of SNC-102 (acamprosate calcium sustained release tablet) in adult subjects with Tourette Syndrome. Subjects will be treated with oral doses of SNC-102 800 mg on a BID basis - before breakfast and at bedtime - for 4 weeks and the same subjects will be treated with SNC-102 1600mg in the morning and 800mg in the evening for an additional 4 weeks. Subjects will be assessed for changes in tic severity, safety, and pharmacokinetics. The study hypothesis is that treatment with SNC-102 will improve the tic severity in adult subjects with Tourette Syndrome.
Brain stimulation in movement disorders This trial will explore the effects of very gentle electrical stimulation of the brain in patients with movement disorders. Other studies have already been carried out and have shown that brain stimulation may help to improve mental abilities and the symptoms of conditions such as depression and stroke. The investigators will show whether this method can help with symptoms such as memory and concentration problems in patients with movement disorder who have mild to moderate problems with these mental abilities. The investigators will also look at the effects of brain stimulation on movement symptoms and mood. These people will be compared to healthy people to help us understand whether brain stimulation works differently in healthy people and people with brain disorders. This trial is being carried out at one centre in Birmingham. It is scheduled to begin in September 2014 and will last for up to five years. As the study commences it is being funded by Birmingham and Solihull Mental Health Foundation Trust and University of Birmingham. The investigators plan to recruit up to a maximum of 200 individuals in this study.
The purpose of this study is to examine how the brain and environment interact to influence children's ability to suppress tics using a medical technology called Transcranial Magnetic Stimulation (TMS).
Our intervention will be the injection of Abobotulinum toxin A into the affected site/vocal cords for patients with the diagnosis of Primary Tourette's syndrome. This is an efficacy trial to understand the right dosage of Abobotulinum toxin A which can be affective. The study will involve an injection of 2.5 units of Dysport on each side of the affected vocal cords for patients with a diagnosis of Primary Tourette's syndrome. The patients will also complete a self assessment survey on how vocal tics affect their daily lives. Afterward, a further evaluation of the tics will be conducted by the investigator using the Yale Global Tic Severity Scale. (YGTSS) evaluation. How this will be done is by a licensed ENT (Ear, Nose and Throat) physician. The windpipe will be number by a 2% lidocaine followed by a provoked cough by the patient. This will allow the lidocaine to be sprayed throughout the airway preventing coughing and swallowing during the procedure. An Electromyography (EMG) guidance a needle containing Dysport will be injected into the thyroarytenoid muscles will potentially reduce the vocal dyskinetic features in patients with TS. This needle will be connected to a syringe and once determined active, it will be placed appropriately when the EMG emits a characteristic sound. If this does not occur with the patient then the injection will be administered under direct vision via direct laryngoscopy using an orotracheal injector system. This procedure is conducted in an outpatient clinic because no hospitalization is required. The patient is not allowed to consume food or drink for about 45-60 minutes after the injection. The throat will be numb and may cause coughing and some blood tinged sputum: The expectancy of this outcome is reason to not consider is a serious event. Asprin and ibuprofen is not allowed a week prior to and until the injection at least 3-4 days after to prevent excessive bleeding. The patient is also instructed to ensure that they chew their food thoroughly and drink sufficient water for the initial days after the study intervention. Mild dysphasia may be noted initially which should resolve within a few hours. On Visit 1, the patient will complete all required study documents and forms. Then the ENT physician will proceed with the injection Dysport on the same day. If unforeseen circumstances render the subject unable to be injected on the same day, the intervention must take place within three days and this will be considered V1, follow up events should be scheduled accordingly.
Tics are brief repetitive movements or vocalizations. Gilles de la Tourette's syndrome (TS) is a disorder characterized by recurrent motor and vocal tics. Tourette syndrome and tic disorders affect up to 8% of children. Peak severity of tic disorders occurs between the ages of 8 to 12 years, therefore during childhood and adolescence the most significant impacts are felt. The quality of life of young people with tics is lower than their peers' and tic severity predicts lower quality of life. Studies have also shown negative social perception toward children with tics. Approximately 50% of patients with Tourette syndrome will have other diagnoses including attention deficit hyperactivity disorder (ADHD), obsessive compulsive disorder, anxiety and depression. Studies have shown improvements in ADHD with physical activity. ADHD and tic disorders are thought to involve the same areas of the brain; thus it is possible that tics might also improve with physical activity. However, no studies to date have examined this. The investigators predict that by implementing a motivational physical activity program, in conjunction with physical activity counseling, the investigators will be able to increase levels of physical activity in children with tics and Tourette syndrome, with a positive impact on tic severity.