View clinical trials related to Dystonia.
Filter by:Ataxia-Telangiectasia A-T is a neurodegenerative disorder of the cerebellum, manifesting with ataxia, as well as extrapyramidal features. Treatment of A-T is discouraging, since no treatment seems to change the course of disease, but improvement can be achieved by symptomatic treatment of the bothersome movement disorder . While various dopaminergic agents are occasionally used, reports of benefit are rather sparse and anecdotal. Amantadine, a well known drug used in influenza as well as movement disorder of Parkinson, has been proved to improve various other types of movement disorder as ataxia, chorea, dystonia, akinesia and attention span. The purpose of this study is to investigate weather amantadine sulphate improves ataxia and the movement disorder (bradykinesia, parkinsonism, dystonia, chorea), as well as the general well being in patients with A-T.
Background: - Blepharospasm is caused by excessive contraction of the muscles that close the eye. It can be treated with injections of botulinum neurotoxin (BoNT), which works by weakening those muscles. - Acetyl Hexapeptide-8 (AH-8) is the active ingredient in a number of cosmetic creams used to treat wrinkles, and is marketed under the trade name Argireline(Copyright). Like BoNT, AH-8 works to weaken the muscles, but is available as a skin cream instead of an injection. AH-8 has never been used to treat people with blepharospasm. Objectives: - To determine if AH-8 can be used as part of a treatment regimen for blepharospasm. Eligibility: - Individuals 18 years of age and older who have blepharospasm and have been receiving successful treatment with botulinum toxin injections. Design: - Participants will be involved in the study for a maximum of 7 months. - Patients will have a complete physical and neurological exam, and will be asked questions about their blepharospasm. Patients will then receive BoNT injections in the same areas of the muscle around the eye and at the same doses that have been effective previously. - After the injections, patients will receive a container of either the active cream (with AH-8) or cream without AH-8, and will be instructed on how to apply it. - Patients will return 1 month after the first visit for another neurologic exam and questions, and will be asked about any side effects. Another supply of cream will be given. - Five additional visits will take place on a monthly basis, and patients will be given additional supplies of the cream as needed. Patients will stop participating in the study if they require another BoNT injection for blepharospasm. The study will end after 7 months.
Foot dystonia is frequently observed in patients suffering from Parkinson'disease. It is characterized by an abnormal involuntary movement which is very uncomfortable (difficult to walk) and painful for the patient. Botulinum toxin injections seem to be efficient to treat this dystonia. However studies on this topic are few and very imprecise (many muscle injected, especially the Flexor digitorum longus, different doses used, heterogeneous population with many types of dystonia included, open studies).
Studies have suggested that voluntary muscle exercise in the hand and face after botulinum toxin injection may enhance the clinical effects of the toxin. Exercise may speed up the absorption of the toxin by the nerves and enhance the clinical response. This study will explore the effect of exercise on botulinum toxin injections for spasmodic dysphonia (SD).
Theta-burst transcranial magnetic stimulation (TBS) is a type of repetitive transcranial magnetic stimulation (rTMS) method that reduces the excitability of a small region of brain for less than one hour. Since dystonia and spasticity may be associated with increased excitability of motor cortex, we expect that by reducing the excitability of motor cortex with TBS we will temporarily improve these symptoms and hopefully open avenues in the future for the use of TBS as a new, non-invasive therapeutic intervention to aid in physical therapy and symptom amelioration of dystonia and spasticity. We will test for motor improvement during the hour immediately following TBS using tests of muscle function and quality of limb movement.
This study is an observational trial which will measure the efficacy of onabotulinumtoxinA in treating Cervical Dystonia.
A post marketing, international, multicenter, observational, prospective, longitudinal study. The purpose of the study is to describe cervical dystonia sub-types with their injection protocols and response to BoNT-A.
The purpose of this study is to gather observational data on an already FDA-approved implantation technique for deep brain stimulation (DBS) in which the entire surgery is performed within an MRI scanner ("interventional MRI", or iMRI). With this surgical technique, the patient is fully asleep (under general anesthesia) during DBS implantation. The standard method for the placement of deep brain stimulators does not use MRI during the actual DBS placement. The standard method involves placement of a rigid frame on the patient's head, performance of a short MRI scan, transport to the operating room, placement of the DBS electrodes in the operating room, and return to the MRI suite for another MR to confirm correct electrode placement. In the standard method, the patient must be awake for 2-4 hours in the operating room to have "brain mapping" performed, where the brain target is confirmed by passing "microelectrodes" (thin wires) into the brain to record its electrical activity. In the standard method, general anesthesia is not required. With the iMRI technique, the surgery is guided entirely by MRI images performed multiple times as the DBS electrode is advanced. This eliminates the need for the patient to be awake, and eliminates the need for passing microelectrodes into the brain before placing the permanent DBS electrode.
The purpose of this study is to evaluate the safety and effectiveness of deep brain stimulation (DBS) of the subthalamic nucleus (STN)for primary dystonia.
The purpose of this study is to determine how to improve treatment of patients with cervical dystonia who have not been helped with standard Botox injections. This study is for patients with cervical dystonia who have not benefited from treatment with Botox using conventional "single lead electromyographic (EMG) techniques" for injection. The study aim is to see if these patients may have significantly more benefit if their Botox is injected into muscles that have been chosen with a multi-channel EMG mapping study of the neck prior to Botox injection.