Role of the Sensory Experience in Generating Motor Tics in Tourette Syndrome
This study will investigate the sensation that many people with Tourette syndrome (TS) experience before they have a motor tic. It will also test whether blocking the sensation causes the tic to stop.
People between 18 and 65 years of age with TS who have at least once tic involving an arm may be eligible for this 3-part study. Those enrolled may participate in all parts or in part 1 or part 2. Those who choose to participate in part 3 must first complete part 2. All must stop taking medication for TS and any other medication that may affect the brain for at least 1 week before the study.
After numbing the skin or muscles of the arm or leg where a pre-tic sensation is experienced, the response of the nerves will be tested by asking subjects to rate the strength of the sensation after a pinprick and by stimulating the nerves with small electrical shocks. Then, over the course of approximately one hour, subjects will report pre-tic sensations while their motor tics are counted. The onset of each tic will be identified with EMG, a test using electrodes on the skin to indicate the activity of the muscles.
Subjects brain waves are recorded using magnetoencephalography (MEG) while they are experiencing tics andpre-tic sensory experiences. MEG is a test that records magnetic field changes produced by brain activity. Subjects sit in a chair under a dome containing magnetic field detectors. They watch a clock and report the time a sensory experience starts. Tics are recorded with EMG. Later, a standard MRI of the brain (scan using a magnetic field and radio waves) is done to see which parts of the brain produced the activity recorded with MEG.
Repetitive transcranial magnetic stimulation (rTMS) is used to try to stop the pre-tic sensations. For TMS, the subject sits in a chair. A wire coil is held on the subject s scalp, and a brief electrical current is passed through the coil, creating a magnetic pulse that stimulates a region of the brain. The goal of this stimulation is to reduce the sensory experience that precedes a tic in one region of the body. During stimulation, the subject hears a click and may feel a pulling sensation on the skin under the coil. There may be a twitch in the muscles of the face, arm or leg. This study uses a pattern of repeated pulses delivered in short bursts. Following each train of pulses, the effect of the stimulation on sensation will be tested by asking the subject to rate the strength of a pinprick and of a vibration. In addition, the nerves are stimulated with small shocks to evaluate the effect of the TMS on nerve activity. To determine the effect of TMS on the pre-tic sensation, subjects are asked to watch a clock and report when they are having a sensory experience. The effect on motor tics will be evaluated by using EMG to indicate the tics.
|Study Design:||Time Perspective: Prospective|
|Official Title:||Understanding the Anatomy and Physiology of the Sensory Experience and Its Role in Generating Tics in Tourette Syndrome|
- Inhibition of the sensory experience frequency and intensity.
- The relationship between inhibition of sensory and motor experiences; and detecting and localizing an electromagnetic signal corresponding to the sensory experience.
|Study Start Date:||September 2008|
We will investigate whether the sensory experience that precedes motor tics in Tourette syndrome is generated in the peripheral nervous system and whether it may result from altered sensory gating, and whether it is necessary to generate motor tics.
We will study 35 individuals with a diagnosis of Tourette syndrome who can describe a sensory experience preceding their tics, and 10 who deny a sensory prodrome.
Design: A Two-Part Study
Part I: MEG recording
We will determine the extent to which CNS responses to tactile and auditory stimuli habituate. Subjects will be presented with trains of stimuli, repeated 80 times. At the end of each of these blocks, a questionnaire will ascertain the subject s perception of these stimuli. CNS responses to the stimuli will be recorded using MEG and analyzed first for localization, and then for amplitude and frequency characteristics. Healthy volunteers will be included as a control group.
Part II: rTMS inhibition
We will test whether the sensory experience is necessary for generating a motor tic. We will inhibit the sensory experience using repetitive transcranial magnetic stimulation (rTMS) over the cortical region identified by prior and ongoing imaging studies in our group. Low intensity rTMS will be applied as a control. Sensory experiences and motor tics will be recorded before and after rTMS..
This will be a staged, exploratory study. In phase 1, we will study 5 adult subjects for part II. Data analysis of this phase will determine whether the procedures are well-tolerated and safe enough to allow for the inclusion of adolescent children, ages 14 and older. Phase 2 will involve completion of both parts, with 20 subjects each.
For part II, the outcome measures will be 1) inhibition of the sensory experience, and 2) the relationship between inhibition of sensory and motor phenomena. For part I, the outcome measure will be degree of habituation in TS subjects as compared to that in healthy volunteers.
|Contact: Elaine P Considine, R.N.||(301) firstname.lastname@example.org|
|Contact: Mark Hallett, M.D.||(301) email@example.com|
|United States, Maryland|
|National Institutes of Health Clinical Center, 9000 Rockville Pike||Recruiting|
|Bethesda, Maryland, United States, 20892|
|Contact: For more information at the NIH Clinical Center contact Patient Recruitment and Public Liaison Office (PRPL) 800-411-1222 ext TTY8664111010 firstname.lastname@example.org|
|Principal Investigator:||Mark Hallett, M.D.||National Institute of Neurological Disorders and Stroke (NINDS)|