22 Clinical Trials for Various Conditions
The purpose of this study is to assess the feasibility of a trial on an oral orthotic for reducing tic severity in children ages 7-25 years with Tourette syndrome (TS) or Chronic Tic Disorder (CTD).
This study will compare the efficacy of supportive therapy versus habit-reversal therapy for the treatment of Tourette syndrome and chronic tic disorder.
This study will determine the effectiveness of cognitive behavior therapy (CBT) with habit reversal training (HRT) in treating chronic tic disorders (CTDs) in children and adolescents.
This study will examine how the brain controls movement in people with Tourette syndrome and chronic tic disorder to determine if the timing of movement is important in whether someone feels "in control" of their movements. Although movements in tic disorders are often characterized as "involuntary," some patients claim that these movements are made voluntarily, or they are unable to decide if they are voluntary or involuntary. Previous experiments have shown that when people are asked to look at a clock and report the time they first decide to make a movement they report times later than the first brain waves associated with movement appear. When they are asked to report the time they first initiate the movement, they report times before the muscles actually begin to move. This study may help determine how the sense of willing and initiating an action is altered in patients with Tourette syndrome and chronic tic disorder, and how people may feel more or less "in control" of their movements. Normal volunteers and patients with Tourette syndrome or chronic tic disorder between 18 and 65 years of age may be eligible for this study. Control subjects must not have any neurological or psychological disorders, and patients with Tourette syndrome of chronic tic disorder must not have any other neurological disorders. Patients with attention deficit hyperactivity disorder (ADHD) may not enroll in this study. All participants will have a medical history, physical examination, and a test to determine their level of attention. Patients will be interviewed about their symptoms and complete psychiatric rating scales. In addition, all participants will undergo the following procedures: Electric shock Participants look at a clock on a computer screen, the hands of which revolves quickly. While looking at the clock, each participant will be given small, non-painful electric shocks and asked, according to the clock, to say when they received the shocks. The shocks are repeated 40 times. Arm movement Participants are asked to lift their arms off a table repeatedly, at random times, while they look at the computer clock. This exercise is repeated 80 times. Of these 80, participants are asked 10 times consecutively to say the time they first had the desire to move their arm, and then 10 consecutively the time they first felt that they were moving their arm. Electroencephalography (EEG) and Electromyography (EMG) Participants undergo EEG and EMG durin...
Chronic tics are a disabling neuropsychiatric symptom associated with multiple child-onset mental disorders. Chronic tics affect 1-3% of youth and can be associated with impaired functioning, emotional and behavioral problems, physical pain, diminished quality of life, and peer victimization. Chronic tics are the primary symptom of Tourette Syndrome (TS) and Persistent Motor/Vocal Tic Disorders. CBIT is a manualized treatment focused on increasing tic controllability. Its core procedure is competing response training (CRT), in which patients learn to inhibit tics by learning and applying a competing motor action to one tic at a time. CBIT is recommended as a first-line treatment relative to medications and other therapies. However, only 52% of children and 38% of adults show clinically meaningful tic improvement. Large randomized trials have demonstrated the superiority of CBIT over supportive therapy in child and adult patients, and meta-analysis shows comparable effect sizes for CBIT and medication. Although increasing tic controllability is the primary goal of CBIT, tic controllability nor its correlates have been examined longitudinally during the intervention. The overall objective of this study is to use fine-grained data collection strategies to identify patterns in tic controllability and other relevant related variables that are associated with treatment response to CBIT. Participants with chronic tics will complete a manualized course of 8-session CBIT. Behavioral, psychosocial, and global functioning will be assessed longitudinally to examine predictors and correlates of response. CBIT sessions will be video recorded.
Expert reviews and practice parameter papers recommend behavior therapy as a first-line intervention for youth with chronic tic disorders (CTDs) with mild-to-moderate tic severity. Although behavior therapies like the Comprehensive Behavioral Intervention for Tics (CBIT) are efficacious in reducing tic symptom severity, only 50% of individuals exhibit a positive treatment response. Thus, there is a clear need to identify strategies to improve treatment response and/or accelerate therapeutic gains . The primary ingredient of CBIT is habit reversal training (HRT), which utilizes both extinction and associative learning. Psychosocial treatments relying on these learning mechanisms have demonstrated an enhanced and/or expedited therapeutic benefit when augmented with d-cycloserine (DCS). This feasibility study will examine the incremental efficacy of HRT+DCS over HRT+placebo for tics targeted with HRT. Eligibility criteria will parallel the child CBIT trial for generalizability and comparability, with the addition of DCS contraindications as exclusionary criteria. Parents and youth will complete a battery of clinical assessments to ascertain tic symptoms severity and co-occurring psychiatric conditions. Afterwards, participants will be randomly assigned to receive either HRT+DCS or HRT+placebo. Instead of a full course of HRT (8 sessions over 10 weeks), a more efficient Quick-Win/Fast-Fail trial design will be used that includes a truncated HRT protocol to provide results in a more timely fashion. As a result of this trial design, the primary outcome of this study will focus on the reduction of bothersome tic severity for those targeted in treatment rather than global severity reductions.
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.
Comprehensive Behavioral Intervention for Tics (CBIT) is an evidence based intervention for tic disorders. A recent scientific review of research priorities completed by the Tourette Syndrome Association recommended widespread dissemination of CBIT as an important next step in services delivery research. Given early evidence that occupational therapists can deliver CBIT effectively, a dissemination strategy using occupational therapists may improve accessibility to this treatment, at lower cost and with decreased stigma. Thus the goal of this study is to develop and test a training and dissemination model with occupational therapists (OTs) using an expert, multi-disciplinary team at Weill Cornell/New York Presbyterian Hospital (WC/NYPH) and University of Alabama at Birmingham (UAB). The investigators have adapted CBIT, the gold-standard behavioral intervention program for children with tic disorders (Woods et al, 2008a,b), for eventual use in OT programs across the country.
The aim of this study is to train patients with tic disorders to control activity in a region of their brain that has been associated with the urge to tic. Patients will be given direct feedback regarding activity in this brain area while they are undergoing functional magnetic resonance imaging (fMRI) scanning, and will try to learn to control activity in the region during these feedback sessions. In separate sessions, patients will be given sham feedback based on the brain patterns of a prior subject rather than their own brain patterns. Our primary hypothesis is that the biofeedback training will reduce their tic symptoms more than the sham feedback.
Many researchers suspect that individuals with Tourette Syndrome (TS) may have a poor cognitive ability (i.e., response inhibition; RI) that is essential to inhibit inappropriate response such as vocal or motor tics. The investigators aim to test whether a well-established behavior therapy for TS can be improved by increasing the individual's RI capabilities. To this end, 20 children will be randomly assigned to behavior therapy with computer-based RI training or behavior therapy with placebo computer-based cognitive training. The investigators will test the hypothesis that computer-based RI training can be a useful addition to the well-established behavior therapy to enhance its therapeutic effect.
This is a clinical study of a cognitive-behavioral therapy known as anger control training in adolescents with Tourette Syndrome and explosive, disruptive behavior. ACT is compared to treatment as usual (TAU) in a randomized clinical trial.
Tourette syndrome is a childhood-onset neuropsychiatric disorder characterized by multiple motor and vocal tics that last for at least a year in duration. Currently, there exist several effective pharmacological treatments for childhood tics including alpha-2 agonist medications (guanfacine and clonidine) and neuroleptics (antipsychotic) medications. These medications, however, have significant side-effects and are only partially efficacy in treating tics. N-acetylcysteine (NAC) is a natural supplement that acts as an antioxidant and glutamate modulating agent. NAC has been used safely for decades in doses 20-40 times higher than in this trial as an antidote for acetaminophen overdose. The only side-effect commonly seen with NAC is nausea and this side-effect is seldom seen in the doses used in this trial. NAC has recently been demonstrated to be effective in a double-blind, placebo-controlled trial in adults with trichotillomania (chronic hair pulling). Hairpulling is hypothesized to be closely related to tics because these conditions (1) have similar clinical characteristics -- both groups typically experience urges before engaging in pulling or tics, (2) neuroimaging studies suggest they involve similar brain circuits -- the basal ganglia, (3) the same pharmacological treatments (neuroleptics) may be effective for both conditions and (4) they tend to be inherited together in families. In other trials NAC has evidence of some efficacy in treating diverse psychiatric conditions such as bipolar depression, schizophrenia and cocaine dependence. The investigators are conducting this trial to determine if NAC is an effective treatment for tics.
The study aims to clarify the functional anatomy of key brain circuits associated with cognitive control in children and adolescents with chronic tic disorders (CTD) and to compare and contrast hypothesized mechanisms related to increased tic control associated with Habit Reversal Training, a behavioral treatment that been previously shown to be effective in treating CTD. We also seek to better understand the relationship between fMRI and quantitative EEG in relevant brain circuits with the hope of establishing EEG as a valid and cost-effective marker of treatment responsiveness. A total of 25 subjects will be randomized to 10 weeks of Habit Reversal Training (HRT), a behavioral treatment, and 25 to 10 weeks of minimal-contact waitlist. Treatment responders will be re-assessed at three months. Waitlist nonresponders will be provided with 10 weeks of HRT. Study assessments, including a neurocognitive battery and quantitative EEG will be administered at baseline, Wk 5, Wk 10, and 3-month follow-up. Neuroimaging (fMRI) will be conducted at baseline and Wk 10.
This study will investigate which areas of the brain are primarily involved in and responsible for tics in patients with Tourette's syndrome and chronic motor disorder. Tourette's syndrome is a neuropsychiatric disorder characterized by motor and vocal tics and is associated with behavioral and emotional disturbances, including symptoms of attention deficit hyperactivity disorder and obsessive-compulsive disorder. Chronic motor disorder has the same characteristics as Tourette's syndrome, except that patients do not have vocal tics. Healthy normal volunteers and patients with Tourette's syndrome or chronic motor tic disorder between 18 and 65 years of age may be eligible for this study. Candidates will be screened with a medical history and physical and neurological examinations. Participants will undergo positron emission tomography (PET) scanning to study tics under three conditions- spontaneous tics, suppression of tics, and sleep-to determine which areas of the brain are responsible for generation of tics. For this procedure, the subject is injected with H215O, a radioactive substance similar to water. A special camera detects the radiation emitted by the H215O, allowing measurement of brain blood flow. Subjects will receive up to 20 injections of H215O during the scanning. Participants will be asked not to sleep the entire night before the test. Before the scan, both patients and volunteers will have EEG electrodes placed on their heads to record the electrical activity of their brains. Patients will also have EMG electrodes placed in areas of the body where tics occur. A small catheter (plastic tube) will be placed in an arm vein for injecting the radioactive tracers, and a mask will be placed on the face to help keep the head still during scanning. The mask has large openings for eyes, nose and mouth, so that it does not interfere with talking or breathing. The entire test takes about 4 hours. During this time, the subject will sleep for 1.5 hours either at the beginning or end of the scan. For the other 2.5 hours, scans will be done every 10 minutes for 1 minute under the different conditions of tic suppression or release of tics. On a separate day, participants will also undergo magnetic resonance imaging (MRI), a diagnostic test that uses a magnetic field and radio waves to produce images of the brain. For this procedure, the subject lies still on a stretcher that is moved into the scanner (a narrow cylinder containing the magnet). ...
This research study is being done to compare a mindfulness-based intervention for tics (MBIT) to psychoeducation with relaxation and supportive therapy (PRST) for individuals with Tourette's syndrome or Persistent Tic Disorders (collectively TS). It is the investigator's hope that this information cam be used to improve current treatments for individuals with TS.
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).
This study will investigate the brain areas that are activated by vocal and motor tics in patients with Tourette's syndrome and other tic disorders. Tics are involuntary repetitive movements similar to voluntary movements. They may be simple, involving only a few muscles or simple sounds, or complex, involving several groups of muscles in orchestrated bouts. This study will involve only simple motor tics, such as eye blinking, nose wrinkling, facial grimacing and abdominal tensing, and simple vocal tics, such as throat clearing, sniffing and snorting. Healthy normal volunteers and patients between 14 and 65 years of age with simple motor or vocal tics may be eligible for this study. Participants will have a brief medical history and physical examination and magnetic resonance imaging (MRI) of the brain. MRI uses a magnetic field and radio waves to produce images. For the procedure, the subject lies on a table that is moved into a cylindrical chamber containing a strong magnet. Earplugs are worn to muffle the loud thumping sounds made by electrical switching of the radio frequency circuits and protect against temporary hearing impairment. During the scan, normal volunteers will be asked to make simple movements or sounds designed to imitate tics, such as raising eyebrows, blinking or coughing. Patients with tic disorders will have two parts to the scanning session. First they will relax and allow tics to occur spontaneously, then they will be asked to imitate a specific tic when there is no urge to tic. Patients and healthy subjects will have electromyography (EMG) to record the timing of the voluntary movements and tics. For this procedure, several pairs of small, saucer-like electrodes are attached to the skin with a gel or paste. Electric signals from the electrodes are amplified and recorded on a computer. A microphone may be placed near patients to record any vocal tics. A video camera may also be used to record the tics.
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.
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.
Tic Disorders (including Tourette Disorder) are relatively common in school-age children and for some children can lead to significant psychosocial and physical impairment and diminished quality of life. Non-pharmacological treatments have been shown to be effective for reducing tics in some children. These treatment options are desired by parents, but are not widely available. The investigators recently developed an online, computerized, self-administered version of CBIT called TicHelper.com. The current study will test the efficacy of TicHelper.com in a randomized clinical trial.
The purpose of this research is to study why most children who have tics never develop Tourette syndrome but some do. In other words, we aim to find features that may predict whose tics will go away and whose tics will continue or worsen, in children ages 5 through 10 years whose first tic occurred within the past 9 months.
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.