View clinical trials related to Neurodegenerative Diseases.
Filter by:This trial is a multicenter, unblinded, single-arm pilot study, lasting one year (plus one year extension Amendment n.3 25 August 2009, plus two years follow-up Amendment n.7) , to evaluate the efficacy and safety of the chelator therapy with deferiprone on cerebral iron accumulations. The drug will be administered in the dosage of 15 mg/kg twice daily. The safety and tolerability of the drug will be evaluated by measuring hemochrome every seven days with leukocyte formula count. At 3, 6 and 12 months from the start of treatment, a neurological evaluation will be performed using several specific evaluation scales (International Cooperative Ataxia Rating Scale (ICARS); Unified Parkinson's Disease Rating Scale (UPDRS); Burke-Fahn-Marsden (BFM)). Every 6 months of treatment, a brain magnetic resonance image (MRI) aimed at measuring iron overload quantitatively, if possible.
Human fibroblasts and possibly other human somatic cells may be reprogrammed into induced pluripotent stem (iPS) cells by the forced expression of transcription factors (1-5). The iPS cells seem to share many properties with human embryonic stem cells. Induced pluripotent stem cells potentially may be useful in the future as an unlimited source of cells for transplantation. The major goal of the project is to develop human iPS cells from cell cultures from skin biopsies or the patient's hair. The iPS cells will be developed primarily for modeling diseases and drug discovery as well as basic research, and for developing the technology that may eventually allow the use of iPS cells for future transplantation therapy. The iPS cells developed in the course of this application are not intended for use in transplantation therapy. Future development of iPS cells for clinical transplantation therapies will be subjected to the appropriate authorization by ethical and regulatory committees.
Respiratory difficulty is one of the primary factors leading to death in patients with Parkinson's Disease (PD) and Multiple Sclerosis. Both diseases are progressive degenerating diseases that cause difficulties in breathing, airway protection and swallowing. Patients with PD and MS typically become sedentary and lose endurance, maximal fitness levels and overall pulmonary function. Much of the research focus has been on the motor symptoms of PD and MS yet the pulmonary and swallowing complications are perhaps ultimately the most important disability as the diseases progress. The inability to generate adequate respiratory pressure is responsible for reduced cough magnitudes and cough response times. Cough is critical for the clearance of foreign materials in the airway helping to reduce infiltration of bacteria and subsequent respiratory infection. With reduced cough function an increased risk for pulmonary disease occurs due to a reduced ability to protect the airways. There are a number of promising outcomes from an expiratory strength-training program. By increasing expiratory muscle strength and expiratory pressure generation, effective breathing, clearance of the airway, and improved swallowing can occur. These explicit outcomes are predicted based on our experience with the use of an innovative device-driven, home-based expiratory strength training program focused on the expiratory muscles of respiration. This project focuses on following patients with PD and MS for an initial 5 weeks of strength training and them testing the outcome of a caregiver program for maintaining treatment effects.
Apathy, defined as a lack of motivation in behaviour, cognition and affect, is common in neurodegenerative diseases. Specific scales are available for the evaluation of apathy but it lacks objective evaluation methods. The aim of this study is to evaluate the changes in reaction time task according to the presence or absence of reward stimulation and to assess the relation between these performances and apathy scales.
The specific aim of this study is to compare ocular movements abnormalities between males with pre-mutation on FRM1 gene (symptomatic or asymptomatic on the motor plan and/or on the cognitive plan), males without the pre-mutation and males with multi-systematized atrophy, in order to identify the neuronal structures implicated in this pathology.
New technologies are giving people with motor disabilities alternative communication and control channels. The investigators are interested in using the Cyberlink Control System as a hands free means to access a computer for people with Amyotrophic Lateral Sclerosis (ALS). The goal of this project is to determine whether this device is a practical and realistic means for ALS patients to communicate with only the use of facial muscle, brainwave, and eye movements. The benefit of this study may be of substantial value to many people with severe motor impairment. Additionally, it is hoped that some of the study subjects may benefit by incorporating hands-free computer use into their daily lives. This study is intended to evaluate the effectiveness of the cyberlink as a tool for daily communication compared to the standard manual letter board.
Amyotrophic lateral sclerosis (ALS) is a progressive neuromuscular condition characterized by weakness, muscle wasting, fasciculations and increased reflexes. Depending on the site of onset, individuals with ALS progressively lose control of their skeletal muscles; bulbar or the extremities. As symptoms worsen and spread, muscle atrophy becomes apparent and upper motor neuron symptoms such as spasticity complicate gait (in lower limb involvement) and manual dexterity (in upper limb involvement). The patients progress to a state of profound disability and have great difficulty in communicating; some may even be entirely "locked in" to their bodies. The capacity for simple communication could greatly improve their quality of life. New technologies are giving people with disabilities alternate communication and control options. One such instrument is the EEG-based Brain-Computer Interface (BCI) which can provide both communication and control functions to those who have lost muscle control. By recording electroencephalographic (EEG) signals or brain waves from the scalp and then decoding them, the Wadsworth BCI allows people to make selections on a computer screen [i] In this study we will be investigating the feasibility of using EEG-based Brain-Computer Interface technology as a communication solution for individuals with ALS. The specific question addressed will be: Can individuals with ALS use the BCI for communication when they present with extreme loss of neuromuscular control and severe communication impairments? The goal of the project is to determine whether this device is a practical and realistic means for individuals with ALS to communicate. The study is intended to evaluate both the complexity of the system and the degree to which each participant will be able to communicate. Trials will consist of asking the subject to follow a series of simple instructions and complete certain tasks while using the BCI. This study design requires that the individual live in the Philadelphia region. Please contact the Wadsworth Center of the New York State Department of Health and State University of New York at Albany directly if you reside outside of this area.
In order to streamline disease research in ALS and other motor neuron diseases, we have joined a consortium of clinical centers (Hershey and University of Pittsburgh) who will collaborate on clinical and basic research projects. As part of this collaboration, de-identified clinical data from subjects at each institution will be entered into a joint database kindly provided and maintained by the ALS Hope Foundation. This database is password protected and contains only de-identified information. In addition to clinical data, any research specimens that are available through IRB approved tissue collections will be linked to the subject so that the collaborating investigators can share samples and have the maximum information. This will enhance the usefulness of each specimen. Once established, the database will provide a resource in which clinical data on a large number of patients along with tissue (blood, urine, muscle, csf, and autopsy) samples will be readily available. This will expedite research by circumventing the delays in collecting specimens prospectively and increase the number of specimens available by allowing the collaborating researchers access to each others specimens. In each case there will be a formal request placed to use specimens that are at the other institutions. These specimens will be used for research in the ALS Center of Hope at the Drexel University College of Medicine and shared with outside investigators with valid IRB approved protocols.
Amyotrophic lateral sclerosis is a uniformly progressive and fatal neurodegenerative disorder for which there is no known cure. In a novel attempt to widen the search for potential therapeutic agents, a NINDS- led cooperative group performed an in-vitro screening program of 1040 FDA approved drugs in over 28 assays relevant to various neurodegenerative disorders. Several cephalosporins showed hits in ALS relevant assays. Efficacy was noted in models suggesting increased expression of the astrocytic glutamate transporter, EAAT2, as well as models of superoxide dismutase mediated toxicity. Ceftriaxone is a third generation cephalosporin with good CNS penetration, a long half-life, and was effective in both types of ALS assays. Ceftriaxone has calcium binding activity, antioxidant properties, and rescues motor neurons in culture from chronic glutamate toxicity. Since completion of the original NINDS screen, Ceftriaxone has been shown to increase by three fold EAAT2 activity in rodent brains, due to ceftriaxone's ability to increase EAAT2 promotor activation This program is for the use of ceftriaxone in ALS for compassionate care. Currently ceftriaxone is approved by the U.S. Food and Drug Administration (FDA) for treating bacterial infections but not for treating ALS. However, there is an ongoing phase I study -by NEALS Consortium and the National Institute of Health- with three cohorts -a placebo group and two groups receiving either 2 or 4 grams of ceftriaxone daily-. Unfortunately there are only a limited number of patients being enrolled and the next phase of the project will not be undertaken until next year. At this point there are ALS patients unable to participate in this Phase I trial and unlikely to be alive when the next phase of study begins. Some of these patients want to receive the drug and are willing to pay for the drug and nursing care. We are therefore requesting a compassionate use protocol for these patients who request the medication and are willing to pay for the drug and nursing care to administer it. Dr. Terry Heiman-Patterson will supervise the administration and safety monitoring including labs for renal and hepatic function as well as IV site inspection.
The purpose of this study is : 1. To assess the ALS patient's satisfaction related to a hospital stay on the neurology floor of Hahnemann Hospital. 2. To compare the reported satisfaction of those individuals who stayed in a standard hospital room with those who stayed in Room 1455. Room 1455 is a room specifically set up with assistive technology related to environmental controls for individuals with disabilities. 3. To look at frequency of use of the various pieces of adaptive equipment.