View clinical trials related to Nervous System Diseases.
Filter by:This study will examine the underlying mental processes that determine how people understand social behavior, remember information, and think. Language, planning, problem solving, reasoning, social behavior, and memory are the critical parts of cognition that make up daily life. This study will explore the association between performance on various experimental tasks and day-to-day functioning. Healthy normal volunteers and patients with certain kinds of brain damage (primarily focal or degenerative lesions of the human prefrontal cortex) or psychiatric disorders may be eligible for this study. Candidates with central nervous system trauma, disease or dysfunction will be screened with a routine neurological examination and history. Participants may be asked to complete written tests, sit in front of a computer monitor and press a key to indicate a decision about what appears on the screen (for example, whether a statement is accurate) and answer questions from a test examiner. A skin conductance response (SCR) test may be done along with some of the cognitive tests. SCR uses electrodes (pieces of metal attached to wires) placed on the fingers to measure the subject's emotional reaction to a test. Participants may also do an evoked response test, in which the subject watches words or scenes on a TV screen while his or her responses are recorded from electrodes placed on the scalp (similar to an electroencephalogram). The tests will be scheduled for an average of one session a week, with each session lasting from 30 minutes to 3 hours. Generally, 15 sessions will be scheduled over a 1-year period. Special arrangements will be made to accommodate participants from out-of-town. Participants may have a magnetic resonance imaging (MRI) scan of the brain. This test uses radio waves and a strong magnetic field to picture structural and chemical changes in tissue. For the procedure, the subject lies on a table in a space enclosed by a metal cylinder (the scanner) for about 1 hour. In addition, some study subjects will be invited to participate in a training study designed to improve their planning or social behavior. Participation requires coming to NIH daily over a 1- to 2-month period for 1 to 2 hours each visit.
The purpose of this study is to find out what might increase nerve damage in people with HIV who have taken drugs for treatment of HIV disease. Another purpose is to see if nerve exams are done correctly before clinical research sites enroll HIV-infected patients. Nerve damage is common in patients with HIV infection and can cause serious problems. The factors that place patients at risk are not well understood. This study will examine these factors in patients with advanced HIV infection and who have been taking anti-HIV drugs.
The mission of the Oregon Center for Complementary and Alternative Medicine in Neurological Disorders (ORCCAMIND) is to facilitate research and education on the effectiveness and mechanisms of action of complementary and alternative medicine (CAM) therapies in the treatment of neurological disorders. The integration of conventional medicine and CAM communities is critical for the success of ORCCAMIND. Thus, ORCCAMIND is composed of six institutions: Oregon Health Sciences University; National College of Naturopathic Medicine; Western States Chiropractic College; Oregon College of Oriental Medicine; the Linus Pauling Institute at Oregon State University; and the Portland Veterans Affairs Medical Center. ORCCAMIND will initially focus on the use of CAM antioxidants and stress reduction as treatments for neurodegenerative and demyelinating diseases because many of these diseases have oxidative injury as a causative or contributory factor and several CAM approaches have direct or indirect anti-oxidant effects. Through the Career Development Program the Developmental Research Program and the activities of the Education and Information Core, we will also foster and promote research into other CAM approaches for neurologic diseases that extend beyond anti-oxidant therapies. ORCCAMIND will achieve its goals by carrying out 4 Research Projects and maintaining 4 Core facilities that integrate the research strengths of conventional medicine and CAM practitioners and researchers. ORCCAMIND draws its strength from the multi-institutional support and the quality of all its investigators. The investigators join ORCCCAMIND with extensive experience with clinical trials, patient care, externally funded basic and clinical neuroscience research, and training programs, including federally-funded training grants. ORCCAMIND is a bold initiative that integrates basic and clinical research scientists, conventional neurologists and CAM practitioners. It will promote the exploration of new areas of CAM research and lead research on CAM therapies for neurological disorders.
This research trial will study discourse processing-that is, how the brain processes the meaning of language. It will examine, for example, how words and sentences are interpreted in cases where more than one meaning is possible. The study will include two parts: 1. An investigation of the role of the prefrontal cortex of the brain in discourse processing will compare test performance of patients with prefrontal cortex damage with that of healthy age-matched normal volunteers. 2. An investigation of the role of aging in discourse processing will compare test performance of young healthy subjects (18 to 40 years old) with older healthy subjects (41 to 80 years old). All study candidates-both normal volunteers and patients with brain damage-must be at least 18 years old, speak English as their native language, have a high school degree or equivalent (GED), read on a minimum fourth grade level and be right-handed. Study candidates who have central nervous system disease, dysfunction or trauma will have a routine history and neurological examination. They will also undergo neuropsychological testing if they have not already done so. Patients with neurological damage who have not had a magnetic resonance imaging (MRI) scan within six months or a year will be asked to undergo this procedure. Study participants will take verbal or written tests; sit in front of a computer screen and press computer keys in response to what they are shown; answer questions from an examiner, which may be tape-recorded; and fill out questionnaires. There will be rest breaks between tasks. The studies will be spread over three to four days, with sessions lasting from 30 minutes to three hours.
OBJECTIVES: I. Evaluate the safety, tolerance, and potential efficacy of 3 doses of human anti-cytomegalovirus (CMV) monoclonal antibody SDZ MSL-109 (MOAB MSL-109) in the treatment of newborns with congenital CMV infection and no central nervous system disease. II. Determine the relationship between plasma concentrations of MOAB MSL-109 and therapeutic outcome. III. Determine whether MOAB MSL-109 influences the antibody response and clearance of virus from the urine.
To compare the effects of intranasal peptide T and placebo in the treatment of painful peripheral neuropathy associated with human immunodeficiency virus (HIV) infection.
The purpose of this protocol is to identify families with inherited neurologic conditions, especially movement disorders, to evaluate affected and unaffected individuals clinically, and to obtain blood samples for genetic analysis.
The purpose of this study is to assist training doctors about different diseases of the nervous system affecting sleep. Patients selected to participate in this study will have any of a variety of sleep disorders. They will undergo several tests including an overnight recording of brain activity, eye movement, leg movement, breathing, heart rate, and other measures. Results of these tests will be used to better understand diseases causing sleep disorders and may be used to develop better treatments for them.
Myoclonus is a condition related to epilepsy of involuntary twitching or jerking of the limbs. The purpose of this study is to determine if stimulation of the brain with magnetic pulses can decrease myoclonus. Researchers believe that this may be possible because in studies on normal volunteers, magnetic stimulation made areas of the brain difficult to activate for several minutes. In addition, early studies on patients with myoclonus have shown magnetic stimulation to be effective at decreasing involuntary movements. Transcranial Magnetic Stimulation (TMS) is a non-invasive technique that can be used to stimulate brain activity and gather information about brain function. It is very useful when studying the areas of the brain and spinal cord related to motor activity (motor cortex and corticospinal tract). Repetitive transcranial magnetic stimulation (rTMS) involves the placement of coil of wire (electromagnet) on the patient's scalp and rapidly turning on and off the electrical current. The changing magnetic field produces weak electrical currents in the brain near the coil. This permits non-invasive, relatively localized stimulation of the surface of the brain (cerebral cortex). The effect of magnetic stimulation varies, depending upon the location, intensity and frequency of the magnetic pulses. Researchers plan to use rTMS for 10 days on patients participating in the study. The 10 day period will be broken into 5 days of active repetitive magnetic stimulation and 5 days of placebo "ineffective" stimulation. At the end of the 10 day period, if the results show that rTMS was beneficial, patients may undergo an additional 5 days of active rTMS.
Technical advances in magnetic resonance imaging (MRI) and magnetic resonance spectroscopy (MRS) have provided researchers with the opportunity to study changes of the central nervous system (CNS) and improve diagnosis and therapy of CNS disease. New MRI and MRS techniques specifically designed for functional MRI (fMRI) and MRS imaging of the CNS will be evaluated in normal volunteers and in patients with CNS diseases. This study will develop and evaluate new magnetic resonance pulse sequences for performing MRI or MRS and compare the results to existing MR techniques. Patients and volunteers age 18 and older are eligible for the study. A history will be taken in which exclusion criteria (such as having a pacemaker or cochlear implants) will be addressed, and a pregnancy test will be administered to women of childbearing age. Each subject will also be asked to fill out a questionnaire. Study participants will lie in the MRI scanner from 20 minutes to 2 hours. A coil may be placed on the head and participants may be asked to do simple or complex tasks. A catheter will be placed in an arm vein and a contrast agent will be administered. This agent will allow structures in the brain to show up more clearly.