View clinical trials related to Dystonic Disorders.
Filter by:The study is designed to observ and collect the doses of botulinum toxin injected in dystonia in different centres to compare the initial dose and the dose recommended. We we ll study the increase of the dose injected over the time, the side effects... The hypothesis is that we inject smaller doses than we could regarding the recommandations
The purpose of this study is to assess the safety and effectiveness of MRI-guided focused ultrasound (MRgFUS) for treating task specific focal hand dystonias (TSFD). TSFD is a type of dystonia that affects hand movements during specific tasks such as writing, playing instruments or typing, often causing involuntarily movements or cramping.
This study aims to investigate the impact of accelerated transcranial magnetic stimulation (TMS) on brain function and behavior in patients with focal cervical dystonia. Previous research demonstrated that individualized TMS improved writing behavior in focal hand dystonia after one session. In this study, we aim to expand the application on TMS on focal cervical dystonia. The current study administers four TMS sessions in a day. The research involves 9 in-person visits. The effect of TMS will be assessed using functional MRI brain scans and behavioral measurements. The risk of TMS includes seizures; 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 cervical dystonia, paving the way for further advancements in clinical therapy for this condition.
Generalized dystonia is treated with pallidotomy. This is based on observational data which is significantly limited by publication bias and there are no RCTs. The case reports focus on successful outcomes and case series have an inherent selection bias. Bilateral pallidotomy has been used in our institute in a series of patients with generalized and segmental dystonia and have been seen to show good efficacy. However, the existing literature suggests that it is also associated with dysphagia and dysarthria in some cases and thus simultaneous bilateral pallidotomy is not preferred in several centres. However, our center routinely performs simultaneous bilateral pallidotomy. The response rates and compliations of the procedure have not been systematically studied in RCT and we need to generate data on the efficacy and safety of Pallidotomy on generalized and segmental dystonia. This randomized controlled trial will fill the void in knowledge in this field.
Cervical dystonia (CD), also known as spasmodic torticollis, is a type of focal dystonia, mainly manifesting as involuntary head turning or tilting, or holding a twisted posture. Although it can be alleviated by injection of botulinum toxin, the effect is temporary so that patients require multiple injections. Deep Brain Stimulation (DBS) targeting on globus pallidus internus (GPi) or subthalamic nucleus (STN) has been proved to be a safe and effective strategy for primary cervical dystonia, even for those medically refractory cases. However, the question of which target is better has not been clarified. Therefore, the invstigators design this randomized and controlled trial, aiming to compare the differences between GPi-DBS and STN-DBS for cervical dystonia in the improvement of symptoms , quality of life, mental status, cognitive status, as well as in stimulation parameters and adverse effects. The invstigators hypothesize that STN-DBS will outperform GPi-DBS at short-term follow-up, while the superiority will disappear and the efficacy of the two group will become similar at long-term follow-up.
Background: Myoclonus dystonia (DYT-SGCE) is characterized by myoclonus and dystonia. Such condition is associated with a high prevalence of psychiatric symptoms which are part of the phenotype. The mechanisms underlying these non-motor symptoms are still poorly understood. Objective: To investigate the neural correlates of cognition and emotion in DYT-SGCE. Design: Participants will have 1 - 2 visits at the clinical center. The total participation time is less than 24 hours. Participants will have a medical interview and a neurological exam. They may give a urine sample before MRI. Participants will have a short neuropsychologic and psychiatric interviews. Participants will have MRI scans. They will do small tasks or be asked to imagine things during the scanning.
Dystonia is a severely disabling movement disorder with no cure, in which people suffer painful muscle spasms causing twisting movements and abnormal postures. There are many causes, including genetic conditions and brain injury. The most common cause in childhood is dystonic cerebral palsy (CP) which often affects the whole body. The underlying mechanisms are unknown, but there is growing evidence to implicate abnormal brain processing by the brain of incoming "sensory" information (e.g., signals to the brain from our senses of touch and body position): the distorted perception of these signals disrupts the way the brain produces instructions for planning and performing movements. The investigator's previous studies have shown that the way the brain processes sensory information related to movement is abnormal in children with dystonia and dystonic CP, by using methods that record the EEG (electroencephalogram - brain wave signals) and/or EMG (electromyogram - electrical signal from muscles). A specific brain rhythm (called mu) typically shows well-defined changes in response to movement, and reflects processing of sensory information. The investigator's work shows these rhythm changes are abnormal in children with dystonia/dystonic CP. This study will explore if these findings can improve treatment. In particular the study team will investigate whether children and young people with dystonia/dystonic CP can enhance these mu rhythm responses during a movement task by using feedback of their brain rhythms displayed as a cartoon/game on a computer. The investigators will also assess whether enhanced mu activity is associated with improved movement control. This would open future possibilities to use such devices for therapy/rehabilitation. Children and young people with dystonia/dystonic CP aged 5-25 years will be recruited, along with age-matched controls. Studies will last 2-3 hours with time for breaks and will be conducted at Evelina London Children's Hospital and Barts Health Trust, with the option for home visits if preferable for families.
The general aim of the research is to provide scientific evidence that vibro-tactile stimulation (VTS) represents a non-invasive form of neuromodulation that can induce measurable improvements in the speech of patients with laryngeal dystonia (LD) - also called spasmodic dysphonia (SD).
Cervical dystonia is the most common form of focal dystonia in adults (50-82%). It manifests itself by a abnormal attitude of the head, intermittent or permanent, due to involuntary contraction of the cervical muscles which appears or is accentuated on the occasion of voluntary movement and maintenance posture. The distribution of dystonic muscles is specific to each patient explaining the diversity of patterns encountered. The therapeutic management of DC is essentially local and symptomatic. It is based on the realization of injections of neuro botulinum toxin (BoNT) targeting target (dystonic) muscles responsible for involuntary movements or posture abnormal. Identifying the muscles involved is a step prerequisite for therapeutic intervention.The obliquus capitis inferior (OCI) also known as Lower Oblique belongs to the group of suboccipital muscles.It is the only suboccipital muscle that does not attach to the skull. Its unilateral contraction causes ipsilateral rotation of C1 therefore of the head. The length of the transverse process of the atlas gives it considerable rotary efficiency. It is described as the cephalic rotation starter muscle. It would perform the 30 first degrees of rotation. The rotation of the whole column cervical would then be continued by the synergistic action of the muscle contralateral sternocleidomatoid and Spl. ipsilateral. The level of joint complex C1-C2 the amplitude of rotation corresponds to approximately 50% of the total rotation of the cervical spine. In order to better understand the part played by the OCI muscle in the disorganization of posture and cervical movements in the axial plane (plane of rotation) in the rotary DC, the investigators want biomechanically analyze its function in pathological situation. The physiology of this muscle is richly documented in healthy subjects. But does this knowledge apply in DC? Acquisition of imagery by the "Cone Beam" or CBCT system (Cone Beam Computed Tomography) before and 5 weeks after the injection of BoNT, will allow the analysis of the displacement of each vertebrate.
Cervical dystonia (CD) is a common movement disorder. Despite the optimization of botulinum toxin injection (BoNT-A) parameters including muscle selection and dosing, a significant proportion of patients report low levels of satisfaction, and a few of them develop resistance to therapy. The only options for such patients would be invasive therapy such as pallidotomy or pallidal deep brain stimulation. Currently, studies are going on the effectiveness of noninvasive neurostimulation in different neurological disorders. Transcranial Direct Current Stimulation (tDCS) or transcranial pulsed current stimulation (tPCS) are known to be safe non-invasive intervention with almost no side effects that can be used to provide complementary treatment. To detect the dysfunctional regions five min resting state quantitative EEG (qEEG) eyes closed will be recorded and analyzed each time before and after noninvasive stimulation. The investigators will evaluate the efficacy of acute noninvasive stimulation in those CD patients who are already on 3 monthly BoNT-A therapy but the effect of BoNT-A is wearing off in 8 weeks. Kinematics (static and dynamic movements) of neck movements will be recorded using established technology before and after stimulation.