View clinical trials related to Dystonic Disorders.
Filter by:Dystonias represent hyperkinetic movement disorders characterized by protracted muscle contractions, such as to cause torsional movements and anomalous postures in different parts of the body. Although they occur more often in a focal form (blepharospasm, oromandibular dystonia, cervical dystonia, laryngeal dystonia, attitudinal cramps of the limbs) than segmental (involvement of several contiguous muscle groups, e.g. facial muscles and neck muscles), they are nevertheless capable of significantly influencing the quality of life, with consequent social and health costs. Although described as a predominantly motor disorder, the presence of non-motor symptoms in dystonias associated with alteration of the fronto-striatal circuits is increasingly recognized. Neuroimaging studies have highlighted that the striatum and, more specifically, striatal dopamine, is involved in high cognitive processes such as attention, reward-based learning and decision making. Clinical conditions associated with cortico-striatal circuit dysfunction and abnormal meso-striatal or meso-cortical dopamine transmission also appear to influence temporal estimation, delay discounting, showing an impulsive preference for immediate rewards over delayed gratification. Based on these premises, the present project aims to evaluate the cognitive and affective aspects of dystonias, in line with neuroimaging research documenting structural and functional dysfunctions in the respective brain regions.
The primary objective of the proposed study is to evaluate the safety of ExAblate Transcranial MRgFUS as a tool for creating bilateral or unilateral lesions in the globus pallidus (GPi) in patients with treatment-refractory secondary dystonia due to dyskinetic cerebral palsy
This study aims to investigate the impact of accelerated transcranial magnetic stimulation (TMS) on brain function and behavior in patients with focal hand dystonia. Previous research demonstrated that individualized TMS improved dystonic behavior after one session. Building on this, the current study administers four TMS sessions in a day, with assessments conducted on the same day, two weeks, and twelve weeks after each session. The research involves 10 in-person visits and focuses on functional MRI brain scans and writing behavior analysis. The potential risk of seizures from TMS is mitigated through careful screening, adhering to safety guidelines. The study's main benefit is enhancing dystonic behavior and deepening the understanding of brain changes caused by TMS in focal hand dystonia, paving the way for further advancements in clinical therapy for this condition.
The goal of this retrospective, international, multi-center chart abstraction is to learn about the long-term impact of product-specific immunogenicity-related factors in different botulinum neurotoxin type A formulations in patients suffering from cervical dystonia. The main question it aims to answer is: Do complex-containing (CC) botulinum toxin formulations impact the long-term clinical outcome in cervical dystonia patients compared to a complex-free (CF) formulation? Researchers will compare differences observed in years 2 and 7 between two toxin groups, i.e., botulinum neurotoxins type A containing complexing proteins (CC) and without complexing proteins (CF).
Hereditary Parkinson and dystonia syndromes are rare, as are people who carry the predisposition for Parkinson or dystonia but do not have symptoms. It is particularly important to study these people because they are a good model for understanding the development of common non-hereditary Parkinson's and dystonia. To do this, the investigators want to look at how the brain works and how different areas of the brain communicate with each other. The investigators want to identify differences in brain regions connecting perception and action between mutation carriers that develop clinical symptoms and those who stay healthy in different subgroups of inherited Parkinson-dystonia syndromes. Mutation carriers with and without symptoms of three different inherited Parkinson-dystonia syndromes will be investigated at their homes with the help of a mobile examination unit. To detect even subtle signs, which the mutation carriers might not even be aware of, the investigators will use a detailed video-based and -documented movement examination and a non-invasive magnetic stimulation technique that investigates how a sensory, i.e., electrical stimulus can influence the motor response in a hand muscle. Our study will allow the investigators, on the one hand, to define specific markers that protect some mutation carriers from having clinical symptoms and, on the other hand, to identify neurophysiological characteristics that all mutation carriers share whether or not they have clinical symptoms. These are important information for a better understanding of the basis of these disorders and for the development of new treatment strategies, which can also be transferred to genetically-undefined Parkinson's and dystonia syndromes. Through this study, large groups of mutation carriers that have received an in-depth clinical and neurophysiological examination and can be investigated longitudinally in future studies will be build up.
The purpose of this research study is to investigate how the brain and motor behavior changes in individuals with dystonia in response to exercise training.
The goal of this observational study is to evaluate the cortical silent period (cSP) in cricothyroid muscle (CT) in laryngeal dystonia and control healthy subjects. The study will provide norms related to latency and amplitude of motor evoked potentials (MEPs) and duration of cSP in CT muscle in laryngeal dystonia and control healthy subjects. Findings may give a baseline in comparison to findings in laryngeal diseases and insight into maladaptive cortical control function during phonation in laryngeal diseases like laryngeal dystonia.
Deep Brain Stimulation (DBS) is a neurosurgical procedure used to treat tremors, and dystonia. This study will enroll people who have a form of focal dystonia that affects their vocal cords called Adductor Laryngeal dystonia (ADLD). Participants will undergo Deep Brain Stimulation surgery to treat laryngeal dystonia as part of their clinical care. Before surgery, as part of the study they will have specialized testing to study the movement of the vocal cords, as well as functional magnetic resonance imaging (fMRI). While in the operating room, researchers will examine brain waves to better understand how faulty brain firing patterns lead to dystonia. After surgery, and activation of the deep brain stimulator, participants will repeat speech testing and vocal cord imaging as well as magnetic resonance imaging (MRI).
Dystonia is involuntary movements characterized by posture abnormalities or repetitive movements as a result of continuous or intermittent simultaneous contraction of opposing muscle groups. Dystonic movements are twisted and twisted in a certain pattern. Dystonia is named in different ways according to its distribution in the body. Cervical dystonia is the most common form of regional dystonia and can be defined as involuntary movements of the head in normal upright posture.Cervical dystonia has different names according to the posture of the neck (torticollis, laterocollis, anterocollis and retrocollis). These different postures can be seen individually as well as together.Pain in cervical dystonia is seen in approximately 70% of patients, and this condition is closely related to involuntary contractions of neck muscles and neck posture disorder. Fatigue, anxiety, unhappiness, decreased self-efficacy and limitation in daily living activities due to decreased neck movements are the main causes of disability in patients with cervical dystonia. The first-line treatment of cervical dystonia consists of injecting botulinum toxin type A into the relevant muscles to alleviate these complaints.There is increasing evidence that range of motion, stretching, and relaxation exercises, in addition to botulinum toxin therapy, have beneficial effects on pain and disability in patients with cervical dystonia.In this study, patients with cervical dystonia who received botulinum toxin type A injection will be divided into study group and control group.The patients in the study group will be given stretching, strengthening, breathing and rhythmic coordination exercises for the muscles involved. (Personalized exercise program) In the control group, only breathing and rhythmic coordination exercises will be given and the two groups will be compared.Thus, it is aimed to investigate the effect of a personalized exercise program on clinical findings and the patient's quality of life.
MEIGES is a prospective, multicenter, randomized controlled clinical trial with the primary hypothesis that, STN-DBS is non-inferior to GPi-DBS for motor symptoms improvements at 365 days postoperatively in patients with idiopathic craniofacial dystonia.