View clinical trials related to Nervous System Diseases.
Filter by:At present, trabeculectomy is the most common performed and effective surgical method of filtration surgery for patients with medically uncontrolled glaucoma. The aim of this prospective observational case study is to determine changes of the peripapillary retinal nerve fiber layer thickness using spectral domain optical coherence tomography in patients with glaucoma after surgical reduction of intraocular pressure.
Background: - People with epilepsy often have auditory processing disorders that affect their ability to hear clearly and may cause problems with understanding speech and other kinds of verbal communication. Researchers are interested in developing better ways of studying what parts of the brain are affected by hearing disorders and epilepsy, and they need better clinical tests to measure how individuals process sound. These tests will allow researchers to examine and evaluate the effects of epilepsy and related disorders on speech and communication. - A procedure called a magnetoencephalography (MEG) can be used to measure the electrical currents involved in brain activity. Researchers are interested in learning whether MEG can be used to detect differences in the processing of simple sounds in patients with epilepsy, both with and without hearing impairments. Objectives: - To measure brain activity in hearing impaired persons with epilepsy and compare the results with those from people with normal hearing and epilepsy as well as people with normal hearing and no epilepsy. This research is performed in collaboration with Johns Hopkins Hospital and epilepsy patients must be candidates for surgery at Johns Hopkins. Eligibility: - Individuals between 18 to 55 years of age who (1) have epilepsy and have hearing impairments, (2) have epilepsy but do not have hearing impairments, or (3) are healthy volunteers who have neither epilepsy nor hearing impairments. - Participants with epilepsy must have developed seizures after 10 years of age, and must be candidates for grid implantation surgery at Johns Hopkins Hospital.. Design: - This study will require one visit of approximately 4 to 6 hours. - Participants will be screened with a full physical examination and medical history, along with a basic hearing test. - Participants will have a magnetic resonance imaging (MRI) scan of the brain, followed by a MEG scan to record magnetic field changes produced by brain activity. - During MEG recording, participants will be asked to listen to various sounds and make simple responses (pressing a button, moving your hand or speaking) in response to sounds heard through earphones. The MEG procedure should take between 1 and 2 hours. - Treatment at NIH is not provided as part of this protocol.
The aim of the study is to determine if 2-week repetitive transcranial magnetic stimulation at the subacute phase of stroke (between day 7 and day 14) improves significantly arm motility at 3 months with remaining effect at one year, without significant adverse effect.
Chemotherapy for the treatment of breast cancer can affect nerves and muscles leading to loss of sensation in the hands and feet for feeling hot and cold, difficulty walking, and muscle weakness. This study will explore if exercises such as walking and strength training may prove helpful in preventing or lessening chemotherapy-induced peripheral neuropathy from chemotherapy, making the therapy easier to tolerate and increasing overall quality of life.
The search for metabolic abnormalities in patients with neurological disorders represents an important challenge 1) to identify new potentially treatable inherited metabolic diseases, and 2) to identify biomarkers or new treatments in more common neurodegenerative or neurogenetic disorders. This approach is currently limited by the fact that techniques aiming at identifying abnormal metabolites in human fluids (metabolomics) only detect subsets of molecules and that no general assays is available to detect abnormalities in the metabolism of complex molecules that takes place within cell organelles. As a consequence, only limited parts of the metabolism can be studied simultaneously. The aim of this study is to evaluate whether NRM spectroscopy of body fluids (urines, cerebrospinal fluid) could allow to detect new metabolic abnormalities in patients with complex neurological diseases.
This study was to determine whether ranolazine was effective in the treatment of neuropathic pain in patients with coronary artery disease. Eligibility required neurological examination by the study doctor and assessment of the patient's pain. Eligible participants were randomized to receive blinded study medication for a total of 12 weeks.
This exploratory study utilizes ferumoxytol, an iron oxide nanoparticle MR contrast agent for imaging various inflammatory processes in the head and neck region, spine, including the central nervous system. The protocol enrolls subjects with radiological or histological diagnosis of unknown, dural, or parenchymal CNS lesions, multiple sclerosis, TIA or stroke, vasculitis, or other vascular lesions; arterial vasculopathy and venous thrombosis; or enlarged cervical lymph nodes. The main purpose of this study is to better understand the underlying cellular mechanisms, contrast agent extravasation, uptake into macrophages and to assess its value in clinical MR imaging.
The purpose of this study is to try different medications in patients with low blood pressure and other problems with their involuntary (autonomic) nervous system. The pharmacological trials in this study will perhaps lead to more effective treatment. The protocol includes single dose trials, dose-selection trials, 5-day trials and chronic (approximately 2 months) trials, although only dose-selection trials were consistently performed and have results presented.
An experimental drug called L-DOPS increases production in the body of a messenger chemical called norepinephrine. Cells in the brain that make norepinephrine are often gone in Parkinson disease. The exact consequences of this loss are unknown, but they may be related to symptoms such as fatigue, depression, or decreased attention that occur commonly in Parkinson disease. This study will explore effects of L-DOPS in conjunction with carbidopa and entacapone, which are drugs used to treat Parkinson disease. We wish to find out what the effects are of increasing norepinephrine production in the brain and whether carbidopa and entacapone augment those effects. Volunteers for this study must be at least 18 years of age and able to give consent to participate in the study. To participate in the study, volunteers must discontinue use of alcohol, tobacco, and certain herbal medicines or dietary supplements, and must also taper or discontinue certain kinds of medications that might interfere with the results of the study. Candidates will be screened with a medical history and physical exam. Participants will be admitted to the National Institutes of Health Clinical Center for two weeks of testing. The study will have three testing phases in a randomly chosen order for each participant: - Single dose of L-DOPS - Single dose of L-DOPS in conjunction with carbidopa - Single dose of L-DOPS in conjunction with entacapone Each phase will last two days, with a washout day between each phase in which no drugs will be given and no testing will be performed. In each phase, participants will undergo a series of tests and measurements, including blood pressure and electrocardiogram tests. Participants who are healthy volunteers will also have blood drawn and will undergo a lumbar puncture (also known as a spinal tap) to obtain spinal fluid for chemical tests.
To understand and characterize the effects of linezolid on the optic nerve by observing and following patients who have been treated with linezolid for six weeks or longer for the development of signs or symptoms of visual disturbance or eye disorders.