View clinical trials related to Dystonia.
Filter by:Study is to investigate the use of the Toronto Western Spasmodic Torticollis Rating Scale (TWSTRS) scale in a cervical dystonia population treated with botulinum toxin type A, and placebo.
The safety and efficacy of Mentor Purified Toxin, Botulinum Toxin Type A, Purified Neurotoxin, injected intramuscularly into the neck, is being evaluated as a treatment for painful and non-painful spasmodic torticollis/cervical dystonia. It is hypothesized that treatment will decrease symptom severity and will not have any significant side effects.
The aim of this study is to confirm efficacy and safety of NT 201 (Xeomin®, also known as IncobotulinumtoxinA) after one injection session and to determine the efficacy and safety profile and the duration of treatment effect of NT 201 in long-term treatment with repeated injection sessions.
This pilot study will evaluate the safety and efficacy of once daily T2000 when used to treat patients with Myoclonus Dystonia over a 12 week period.
Dystonia is a neurological movement disorder in which sustained muscle contractions cause twisting and repetitive movements or abnormal postures. This disease is very heterogeneous and can have many causes. Current treatments (drugs, pallidal stimulation) improve primary generalized dystonias; however they are ineffective for focal dystonias following brain damage. Cortex stimulation is a present and effective technique used in the treatment of chronic pain and could represent an interesting strategy to treat focal dystonias. This is the aim of the present study.
This study will examine the role of certain areas of the brain in blepharospasm, a type of dystonia (abnormality of movement and muscle tone) that causes unwanted or uncontrollable blinking or closing of the eyelids. The study will compare brain activity in healthy volunteers and in people with blepharospasm to find differences in the brain that may lead to better treatments for dystonia. Healthy volunteers and people with blepharospasm who are 18 years of age and older may be eligible for this study. All candidates are screened with a medical history. People with blepharospasm also have a physical examination and blepharospasm rating. Participants undergo transcranial magnetic stimulation (TMS) and electromyography (EMG) in two 4-hour sessions, separated by 1 to 7 days. TMS A wire coil is held on the subject s scalp. A brief electrical current is passed through the coil, creating a magnetic pulse that stimulates the brain. The subject hears a click and may feel a pulling sensation on the skin under the coil. There may be a twitch in muscles of the face, arm or leg. During the stimulation, subjects may be asked to tense certain muscles slightly or perform other simple actions. Repetitive TMS involves repeated magnetic pulses delivered in short bursts of impulses. Subjects receive 60 pulses per minute over 15 minutes. EMG Surface EMG is done during TMS to measure the electrical activity of muscles. For this test, electrodes (small metal disks) are filled with a conductive gel and taped to the skin of the face.
A handheld surface electromyography device will be tested by clinicians on children with limb hypertonia, and inter-rater reliability will be assessed with and without the device.
The main goal of the GENEPARK consortium is to employ innovative haemogenomic approaches to determine gene expression profiles specific for genetic and idiopathic Parkinson's disease (PD) patients. These gene expression signatures will be utilised clinically as non-invasive diagnostic tests for PD. The sensitivity of the newly developed diagnostic test will be determined by extensive validations on an independent cohort of PD patients, whereas the specificity will be assessed by testing patients with atypical parkinsonisms, including multiple system atrophy, progressive supranuclear palsy and diffuse Lewy body disease. In order to test the specificity of the diagnostic set in other disorders that affect basal ganglia, Huntington's disease and dopa responsive dystonia patients will be analysed. The second objective of the proposal is to determine correlations between gene expression signatures and different stages of PD and thus provide the basis for early diagnosis and monitoring of disease progression. These changes in blood gene expression will be correlated with alterations detected by neuroimaging in the brain of PD patients. Such combinations of molecular and morphological markers of disease may ultimately facilitate the selection and monitoring of neuroprotective therapies for PD. Finally, GENEPARK aims to develop new bioinformatic software tools for selection of genomic biomarkers using microarray data. A set of established computational tools will be applied and novel methods, some of them based on mechanistic modelling of the neurodegenerative diseases, will be developed in order to study the advantages and limitations of the different methodologies. With special emphasis on the careful clinical selection of patients and sufficient power regarding patient numbers, as well as extensive quality control and validation of the data, GENEPARK aims to develop a standardised approach to development and validation of haemogenomic biomarkers of disease.
The aim is to demonstrate equivalent efficacy and safety in the treatment of the two most frequent forms of cervical dystonia (predominantly rotational torticollis and predominantly laterocollis) with the standard initial dose of 500 units Dysport®. The patients will be assigned to one of the two basic types of cervical dystonia, either predominantly rotational torticollis or predominantly laterocollis on the basis of clinical examination. This will determine which therapy is to be administered, using the clearly defined, structured injection protocols.
Cervical dystonia (CD) is characterized by abnormal, involuntary sustained cervical muscles contractions associated with twisting movements and abnormal postures of the neck that can be quite disabling. Currently there are no good oral medications for the treatment of CD. While botulinum toxin injections are effective in most, they require repeat injections and there are some patients who either stop responding or who never respond at all. Therefore, better treatments are needed. While the underlying mechanisms of dystonia are not entirely known, there is some information suggesting that it is ude to an underactivity of a chemical compound, GABA, that is located in the basal ganglia. Cannabinoids are a compound than can enhance transmission of GABA, and thus, may alleviate the symptoms of dystonia. Dronabinol, one such cannabinoid, has been widely used to treat anorexia and nausea in chemotherapeutic patients. The aim of this study, therefore, is to study the effect of dronabinol on cervical dystonia