View clinical trials related to Spinocerebellar Ataxia.
Filter by:This study will test laryngeal adaptation in speech and swallowing function in healthy adults, in patients with cerebral stroke, and in patients with spinocerebellar ataxia type 6. The findings from this proposal will be the first step toward implementing rehabilitation techniques that help patients to prevent speech and swallowing errors before they occur.
Spinocerebellar ataxias (SCA) 1, 2, 3 and 6 are the most common, autosomal dominantly inherited cerebellar degenerations. And in the Chinese population, the most common SCA is SCA3 and the frequency of SCA 3 among SCA patients is 72.5%, followed by SCA 2 that the frequency is 12% among SCA patients. For SCA 1, the frequency among SCA patients is 7%. Even SCAs are rare diseases, a significant amount of Chinese in Hong Kong still suffer from this disorders. SCA Association in Hong Kong has 88 members who are suffering from spinocerebellar degeneration, many of them have a genetic confirmation. As there are few treatments for SCAs; therefore, understanding SCAs clinical manifestation and disease mechanisms are the first step towards development of effective treatment. The objective of this study is to develop the first SCA registry in Hong Kong with bio-repository bank for clinical and genetic information as well as serum and fibroblasts.
Exergame training might offer a novel treatment approach even in largely nonambulatory subjects with multisystemic degenerative spinocerebellar ataxia.
This is a piloting study using continuous motor training provided via whole body-controlled video games (exergames) to establish proof-of-concept evidence that such training leads to motor and neural changes in pre-manifest subjects with spinocerebellar ataxias (SCA).
Background: Spinocerebellar ataxia type 7 (SCA7) is disease in which people have problems with coordination, balance, speech and vision. It is caused by a change in the ATXN7 gene. A mutation in this ATXN7 gene causes changes in eye cells, which can lead to vision loss. There is no cure for SCA7 but researchers are looking for possible treatments. Researchers need more information about SCA7. They want to collect vision and neurology related data from people with SCA7. They want to learn how and what changes in the eye and brain when the ATXN7 gene isn t working properly. Objective: To learn more about SCA7 and its progression. Eligibility: People ages 12 and older with SCA7. Design: Participants will be screened with medical history and genetic testing from a previous National Eye Institute study or their personal physician. Participants will have at least 7 visits over 5 years. They will have 2 visits during the first week of the study. Then they will be asked to come back every year for the next 5 years. Each visit will last several days and will include: - Medical and eye history - Several eye tests: some will include dilating the pupil with eye drops and taking photos or scans of the eyes. - Electroretinography (ERG): Participants will sit in the dark with their eyes patched for 30 minutes. After this, the patches will be removed and contact lenses put into the eyes. They will watch flashing lights and information will be recorded. - Neurological exams: Sensation, strength, coordination, reflexes, attention, memory, language, and other cognitive functions will be tested. - Brain MRI: They will lie in a machine that takes pictures of the brain. - Blood and urine tests - Optional skin biopsy: About 3 millimeters of skin will be removed for more research testing; this is half the size of a pencil eraser.
The purpose of this research study is to investigate how the brain and motor behavior changes both in individuals with spinocerebellar ataxia and healthy individuals, and to assess whether a therapeutic intervention reduces levels of uncoordinated movement and improves motor function in spinocerebellar ataxia (SCA).
The key goals of EUROSCA-NHS is to determine and compare the rate of disease progression in SCA1, SCA2, SCA3 and SCA6 including determination of the order and occurrence of non-ataxia symptoms, assessment of activities of daily living (ADL) and quality of life (QoL), and identification of predictors of disease progression and survival.
Spinocerebellar ataxia (SCA) is a hereditary disorder with movement incoordination. The ataxia performed low intra-cortical facilitation mainly due to the degenerative cerebellum. Noninvasive sensory stimulations such as peripheral electrical stimulation were reported to modulate the excitability of the motor excitability. Neuromuscular electrical stimulation (NMES) was proposed as a neuromodulation tool for the aberrant motor excitability on the SCA. This study aims to investigate the effect of NMES on the motor excitability in the SCA, and the differentiation on the central or peripheral motor excitability changed by the NMES.
The Cerebellum contains ten percent of the total volume of the brain and receives brain, spinal cord and vestibular sensory input. The organization of vestibular and somato-sensory afferent informations are also reported to be impaired in patients with cerebellum dysfunctions. Ataxia and impaired balance control are common symptoms in individuals with spinocerebellar ataxia (SCA). Previous studies have shown that patient with cerebellar damage are usually agonist and antagonist muscle coordination problem. Past studies also found the regulation of reciprocal Ia inhibition was impaired in patients with spinaocerebellar ataxia. In chronic phase, weakness might be developed due to deconditioned. All deficits mentioned above might lead to a decrease functional ability. Therefore, increasing somato-sensory and vestibular input, normalizing the modulation of recriprocal inhibition, and improve muscle strength might be able to improve the functional abilities of individuals with SCA. Recently, whole body vibration (WBV) has been trained for health groups. Studies showed that WBV training were able to improve muscle strength, balance control, and functional ability. However, there is no evidence showed that whether the whole body vibration training can affect the brain and spinal cord for the regulation of neural circuits. Whether also can affect for maximal voluntary contraction and improve central fatigue. No previous studies that whole body vibration training for SCA. Therefore, the purpose of this research was to investigate the intracortical facilitation and inhibition, reciprocal Ia inhibition, low frequency depression, maximal voluntary contraction, interpolated twitch technique to compare the different between the SCA and health subject. Also to investigate the short term and long term effect of WBV.
Spinocerebellar Ataxia (SCA) refers to a family of genetic diseases that cause progressive problems with gait and balance, as well as other debilitating symptoms. This is a randomized controlled pilot study to test a novel therapeutic intervention that uses noninvasive magnetic brain stimulation to improve functional outcomes in patients with SCA. The study will include quantitative evaluations of gait, balance, and brain physiology to examine possible objective end-points for a future, larger multi-site clinical trial. The investigators anticipate that patients receiving the real intervention will show a functional gain.