New Stereotactic Frame System for Neurosurgery
Parkinson DiseaseEssential Tremor3 moreThis study is designed to demonstrate an in-house developed re-attachable stereotactic system that can markedly reduce the overall deep brain stimulation (DBS) procedure time to greatly facilitate subject access to neurosurgical restorative therapies. Subjects will consist exclusively of individuals who have been approved to undergo deep brain stimulation surgery for the treatment of a neurological disorder at Mayo Clinic - Rochester MN. This study is a quantitative comparative, between-subject study enrolling approximately 10 subjects.
Role of Frontal Cortex in the Pathophysiology of Gilles de la Tourette Syndrome (GTS)
Tourette SyndromeTourette's syndrome (TS) is a debilitating and severe syndrome whose pathophysiology remains unclear. In order to precise the cortical regions involved in the generation of tics, investigators will realize an electroencephalogram (EEG) recording in the frontal cortex of TS patients in ecological conditions (EEG-holter). Activity changes will be correlated with event markers of tics and neurovegetative parameters. Statistical analyses will be compared between epochs of EEG recording with tics and without tics. The aim is to define the cortical regions involved in the genesis of tics in order to consider new targets for cortical stimulation.
Role of the Sensory Experience in Generating Motor Tics in Tourette Syndrome
Tic DisorderTourette SyndromeThis 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. Part 1 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. Part 2 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. Part 3 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.
Brain Activity Associated With Tics in Patients With Tourette Syndrome
Tourette SyndromeThis study will examine brain activity associated with the involuntary urges or uncontrolled movements, called "tics," experienced by people who have Tourette syndrome (TS). Before people with TS actually develop a tic, whether it is a movement or a vocal tic (like a cough or bark), they feel the urge to tic. This study will look at brain activity during the time of this urge and how brain activity may differ in people with TS and without TS. Healthy normal volunteers and patients with TS between 14 and 65 years of age may be eligible for this study. Patients must have sensory tics in the facial region and must experience at least a moderate premonitory urge. Candidates are screened with a medical history, brief physical examination, and a questionnaire. Participants undergo the following procedures: Magnetoencephalography (MEG): This test records magnetic field changes produced by brain activity. During the test, the subjects are seated in the MEG recording room and a cone containing magnetic field detectors is lowered onto their head. Electrodes (small metal disks) are placed on both sides of the face near the jaw. The recording may be made while the subject receives small currents from the electrodes on the jaw. Subjects may be asked a few questions about what they felt during the procedure. Magnetic resonance imaging (MRI): This test uses a strong magnetic field and radio waves to obtain images of body organs and tissues. During the procedure, the subject lies on a table that can slide in and out of the scanner-a metal cylinder. Subjects may be asked to lie still for up to 30 minutes at a time. They can communicate with the staff at any time during the scan. Somatosensory evoked responses: This test examines how sensory information travels form the nerves to the spinal cord and brain in the nervous system. An electrode placed on the arm, leg, or face delivers a small electrical stimulus that may tingle and cause a twitch of a hand, foot, or face muscle. Additional electrodes may sometimes be placed on the scalp, neck, and over the collarbone to record how the impulse from the stimulus travels over nerve pathways. Patients in the study are contacted for follow-up after the study. Follow-up will be conducted by phone or email, according to the patients' convenience, and will consist of reaffirming that there were no adverse events.
I-123 Brain Studies of Serotonin Metabolism in Psychiatric Patients and Normal Volunteers
HealthyMental Disorder3 moreAbnormalities in the re-uptake of dopamine and serotonin have been described in various neuropsychiatric disorders and substance abuse. [I-123] Beta-CIT is a recently developed radioligand for SPECT imaging of dopamine and serotonin transporters. [I-123]Beta-CIT SPECT has been used at the SPECT-lab of the Clinical Brain Disorders Branch in over fifty subjects without adverse events. Due to the trace concentrations used, a pharmacological effect of Beta-CIT is unlikely and has not been observed. The purpose of this study is to use Beta-CIT and SPECT to study the expression of dopamine and serotonin transporters in vivo in normal controls and various patient populations to address hypothesized abnormalities of the transporters in different disorders and to understand the effects of genetic variations in the genes of these transporters on their in vivo expression.
Hypersensitivity in Tourette Syndrome
Tourette's SyndromeThis study will investigate how the sensitivity to touch and smell in patients with Tourette syndrome (TS) may differ from that of people without TS. TS is a neurological disorder that causes people to have uncontrolled movements called "tics." A tic can also be vocal, like a cough or bark or string of bad words. The tic is preceded by a "premonitory urge" that may feel like an itch or pressure that builds until the tic occurs. To some patients, the tic feels like a response to an involuntary sensation. In patients with TS, sensory information may be processed differently than it is in people without TS. This study will compare how strong a sensation feels in TS patients and healthy volunteers. It will also look for muscle activity that may be responsible for the feelings in the area of the tic. Healthy normal volunteers and people with Tourette syndrome, 18 to 65 years of age, may be eligible for this study. Candidates are screened with a medical history and brief physical and neurological examinations. TS patients complete a questionnaire about their tics and are interviewed by a psychiatrist. Women who can become pregnant will have a urine pregnancy test prior to any other procedures. Pregnant women cannot participate. All participants undergo sensory testing for touch and smell. They are asked to distinguish between a scented and scentless object and rate how strongly they feel the scent. Later, with their eyes closed, they are asked to tell whether or not they are being touched, and to rate how intensely they felt the touch. In addition to the sensory testing, TS patients, but not normal volunteers, undergo electromyography (EMG), a test that measures the electrical activity of muscles. For surface EMG, small metal disks called electrodes are filled with a conductive gel and taped to the skin. Wire EMG involves inserting a wire into a muscle using a needle. All patients have surface EMG and those who consent to it will also have wire EMG.
Study of the Neurobiology of Tourette Syndrome and Related Disorders
Tourette SyndromeObsessive Compulsive DisorderOBJECTIVES: I. Investigate the pathobiology of Tourette syndrome and related disorders by measuring various compounds of interest in cerebrospinal fluid, plasma, and urine of patients with Tourette syndrome, obsessive compulsive disorder, and/or chronic tics. II. Determine the pattern of familial aggregation of Tourette syndrome and obsessive compulsive disorder by systematic assessment of all first-degree family members of patients selected for cerebrospinal fluid studies. III. Establish the neurochemical and neuropeptide profile associated with the range of expression of the putative Tourette gene expression in adult and adolescent patients.
Impulsivity in Tourette Syndrome : Behavioral and Neuroimaging Study
Tourette SyndromeTourette syndrome (TS) is characterized by the presence of multiple vocal and motor tics. Behavioral disorders associated with TS are common, particularly impulsivity, anti-sociality and socially inappropriate behavior. Specifically, cognitive impulsivity could be the source of these troubles. Its anatomical substrates is based on connections between frontal and striatal areas. Initially, a battery of behavioral tests measuring different types of impulsivity (motor, cognitive and decision) will be administered on three groups of subjects: TS: 80 patients (40 patients treated and 40 untreated) and 40 healthy volunteers. Then, investigators will study the fronto-striatal connections in the TS group of 80 patients (40 patients treated and 40 untreated) compared to 40 healthy volunteers using neuroimaging techniques (3T MRI). The techniques used will be functional connectivity study of "resting state" MRI (RS-fMRI) combined with a reconstruction of white matter fibers by diffusion tensor imaging (DTI). Behavioral performance will be correlated with the correlation imaging data to highlight the functional anatomical substrates of impulsivity in patients with TS. Finally, investigators will look specifically using functional MRI activation, the anatomical and functional substrates of the three types of impulsivity (motor, cognitive and decision-making). Through this study, investigators hope to elucidate the anatomical and functional bases of cognitive impulsivity in patients with TS and thus lay the basis for more targeted treatments.
Sensory Processing in Tourette Syndrome
Tourette SyndromeThe purpose of this study is to learn more about how patients with Tourette Syndrome deal with sensory stimuli in their environment such as bright lights, loud noises, physical sensations such as shirt tags, etcetera. We will compare responses of patients with Tourette Syndrome to those without Tourette Syndrome. The study aims to better characterize sensory processing abnormalities by sensory modality: The investigators will use a measuring tool based on Dunn's 1997 model of sensory processing, the Sensory Profile, which will allow the investigator to characterize both registration and response to external stimuli, as well as to delineate which sensory modalities are affected. Identifying which sensory modalities are most affected may guide future research into the pathophysiology of sensory processing abnormalities in TS. The investigators also aim to correlate sensory processing abnormalities with the presence of Obsessive Compulsive Disorder (OCD), Attention-deficit/hyperactivity disorder (ADHD) , and autism spectrum disorders.
The Effect of Medical Cannabis on Tics, Premonitory Urge and Psychiatric Comorbidity in Adults With...
Tourette SyndromeCannabisMedical 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.