Search clinical trials by condition, location and status
The purpose of this study is to to explore the safety and efficacy of the EXOPULSE Mollii suit, a full-body electrostimulation suit, for individuals with neurological or neuromuscular conditions that cause spasticity, hyperreflexia, and/or pain.
The purpose of this research is (1) to identify disease specific walking-related digital biomarkers of disease severity, and (2) monitor longitudinal changes in natural environments, for extended periods of time, in DMD and SMA.
The goal of this study is to establish a genetic registry of patients with early-onset motor neuron and neuromuscular diseases. The investigators will collect samples from patients with a motor neuron or a neuromuscular disorder and their family members. The samples to be collected will be obtained using minimally invasive (whole blood) means. The research team will then extract high quality genomic DNA or RNA from these samples and use it to identify and confirm novel gene mutations and to identify genes which regulate the severity of motor neuron/neuromuscular diseases.
The purpose of this study is to identify new genes responsible for neuromuscular disorders and study muscle tissue of patient with known neuromuscular disease, as well as their family members. We are interested in recruiting many types of neuromuscular disease including; Duchenne muscular dystrophy (DMD), Becker muscular dystrophy (BMD), and limb-girdle muscle dystrophy (LGMD). There are still many patients diagnosed with muscular dystrophy with no causative gene implicated in their disease. Using molecular genetics to unravel basis of these neuromuscular disorders will lead to more accurate diagnosis/prognosis of these disorders which will lead to potential therapies.
We are studying the genetics of human cardiovascular and neuromuscular disease. There are many different genetic regions that have been associated with the development of cardiomyopathy. An equal number of genetic regions have been associated with muscular dystrophy and there is overlap because some of the identical genes, when mutated, produce both cardiomyopathy and muscular dystrophy. We are working to identify genes and gene mutations associated with cardiomyopathy, arrhythmias and muscular dystrophy. We propose to screen these samples for mutations in genes known to be involved in these disorders.
The purpose of this study is to see if wearable sensor technology can be used to evaluate muscle activity and/or identify atypical muscle tone in infants up to 48 weeks postmenstrual age (8 weeks corrected age). These sensors are placed on the surface of the skin and record data about a child's body movements and muscle activity.
This study measures the level of physical activity in participants with neuromuscular disorders. The patient wears a small button like meter on their leg for a period of 1 week every 6 months over a period of 3 years. Participants will also have a physical exam, six minute walk test,vital signs and questionnaires.
The purpose of this research repository is to collect, store, and share with other researchers any tissues that subjects with all types of neuromuscular disease are willing to donate. These samples will be stored at Virginia Commonwealth University (VCU) and will be used for future research with this population.
This study will clinically evaluate a newly developed respiratory monitor - pneuRIP. The pneuRIP uses Respiratory Inductance Plethysmography (RIP) bands to measure key breathing indices non-invasively. This study compares the pneuRIP to an existing Respitrace system (Carefusion, Yorba Linda CA). 10 normal children and 10 children with breathing difficulties will be monitored with both systems.
Background: \- Electrical impedance myography (EIM) is a new technique being studied to see if it is helpful in evaluating muscle disorders and nerve disorders. EIM looks at how a mild, painless electrical current travels through muscles. Researchers want to gain experience in using the EIM device. They will collect information on the results of using it on people with and without nerve and muscle diseases, and compare that with information from other standard tests. First, they will test the device on healthy people. Then they will test people with a variety of neuromuscular diseases. Because the test is noninvasive and not painful, researchers will test both children and adults. Objectives: \- To gain experience using the EIM muscle testing device. Eligibility: * Healthy volunteers at least 2 years old. * Individuals at least 2 years old who have neuromuscular disease. Design: * Participants will be screened with a medical history and physical exam. * Participants will have one 2-3 hour clinic visit. Researchers may request follow-up visits. * Participants will be tested with the EIM device. The device and small electrodes will be placed on their skin. An electric current will pass through the device, but the participants will not feel this. * Participants may have an ultrasound test. A gel will be put on their skin, and a device will be moved over the skin. * Participants may have a nerve test. Electrodes will be placed on their skin, and they will feel a small shock. * Participants may have a test where a thin needle is inserted in their muscle.