View clinical trials related to Muscular Atrophy.
Filter by:While there are a number studies that have reported on the use of blood flow restriction training (BFRT) in the adult population, there is limited information about the use of BFRT in the adolescent population. This study aims to evaluate the use of BFRT in conjunction with traditional anterior ligament reconstruction (ACLR) rehabilitation in adolescents. The purpose of this study is to compare the addition of a BFRT based exercise protocol to a standard ACL rehabilitation protocol in adolescents. Does the addition of BFRT-based exercise improve strength, hypertrophy, and patient reported outcomes after ACLR in the adolescent population?
The goal of this multicenter, open-label, non-comparative, cohort study is to investigate the safety, immunogenicity, and efficacy of ANB-004 in children with spinal muscular atrophy. The study will have a standard 3+3 dose-escalation design.
The aim of this study is to investigate the efficacy of blood flow restriction (BFR) therapy in post operative rehabilitation following knee arthroscopy.
SMA (Spinal Muscular Atrophy) is a rare neuromuscular disease characterized by motoneuron damage. Symptoms consist of respiratory involvement with numerous respiratory infections and eventually respiratory failure, for which NIV (Non Invasive Ventilation) is often used. Ventilation machines are in close contact with the respiratory tract of patients. They contain heated water to humidify the circuit. These humid and warm environments are conducive to the development of bacteria such as Pseudomonas aeruginosa. In this context, it is interesting to look for the presence or absence of bacteria, in comparison with the respiratory ecology of the patients. The aim is to highlight the microbiological role of NIV on the occurrence of respiratory bacterial infections or secondary infections in patients with SMA. To do this, samples are taken from the machines, and ECBCs are performed on patients during respiratory physiotherapy sessions.
This study is a 12-week randomized active control trial that is investigating the effects of Carnipure(R) AAS on muscle hypertrophy, body composition, and muscular strength adaptations in healthy men performing a resistance training program.
Motor neuron disease (MND) or ALS is a nervous system disease. ALS leads to a loss of movement ability that eventually leads to death. At the moment, there is no known treatment for ALS. Early diagnosis in individuals improves clinical care and facilitates timely entry into clinical trials. However, current methods for diagnosis are primarily clinical, and to date, no cost-effective biomarkers have been developed. Our objective is to identify a robust non-invasive neurophysiological-based system that can be used both as a biomarker of disease onset, and a measurement of progression using quantitative EEG and surface EMG (bipolar and high-density). The investigators postulate that analysing the joint recordings of EEG and EMG (bipolar or high-density) can give measures that better distinguish healthy people and ALS patient subgroups and that the findings can be developed as biomarkers of early diagnosis and disease progression.
Spinal muscular atrophy (SMA) is a genetic disease of the nervous system that affects about 1 in 7,0001.2 births and results in very high mortality for patients with the disease. There are about 120 new cases in France each year and an estimated total of 2500 patients. It is the leading cause of genetic mortality in children in France. Until 2017, no etiological treatment was available. Currently, three treatments have been approved and have authorizations in France. The current clinical developments in SMA show the importance of an early treatment for patients. 3. The identification of pre-symptomatic patients is therefore essential to improve the effectiveness of treatments on an individual level and to avoid any loss of chance, as well as to reduce the societal cost of disability for patients treated in post-symptomatic. Several countries in Europe and around the world have implemented regional pilot screening programs for the disease. The screening test is based on a molecular genetic analysis that has been performed for many years, and which is highly reliable; there is currently no biochemical marker that can be used. The objective of our project is to demonstrate the feasibility of neonatal screening for spinal amyotrophy in two French regions before being able to propose to extend it to the whole of France. The management of all screened patients will be decided outside the pilot study, by the existing national multidisciplinary consultation meeting, according to the best available standards of care and will be based on the national network of neuromuscular disease reference centers The objective of the project is not the evaluation of the efficacy of treatments or neonatal screening: these objectives are being studied by existing or otherwise ongoing studies around the world. This project has been set up to be in line with the existing structures in France that are responsible for neonatal screening (via the regional neonatal screening centers (CRDN) and the regional perinatal networks) and for the management of rare diseases (via the neuromuscular disease reference centers and their FILNEMUS network). This project is performed in collaboration with AFM Telethon, Directorate of Health Care Supply, Regional Health Agency (ARS), FILNEMUS network, Novartis Gene Therapies, Roche Pharma AG,Biogen. Investigator wish, as far as possible, to bring this study closer to real life and to be able to generate as much information as possible that can be used directly to prefigure the potential generalization of this screening strategy to the entire national territory.
Low mobility during an acute care hospitalization is very frequent, particularly among older patients, and associated with adverse outcomes, such as persistent functional decline, institutionalization and death. However, increasing hospital mobility remains challenging because of the multiple existing barriers. The goal of this clinical trial is to test the effect of a multilevel intervention to increase hospital mobility, which addresses modifiable barriers and facilitators and does not require unavailable additional resources. This study aims to answer whether this intervention can improve mobility and patient-relevant outcomes such as life-space mobility and functional status. The multilevel intervention will target: 1. The patients, who will receive an information booklet, a customizable diary, an exercise booklet and an iPad with access to the videos of the exercise booklet. 2. The healthcare professionals (nursing staff and physicians) who will complete an e-learning, receive an oral presentation on the intervention, and receive a "mobility checklist" that reminds them of what they should assess daily regarding mobility. 3. The hospital environment, where posters will be hung in the wards, including walking itineraries, on topics of interest to older adults. In a first phase, the intervention will be pilot-tested in one ward of each hospital. The intervention will then be adapted based on patient and healthcare professional feedback. In a second phase, the intervention will be tested in a cluster randomized controlled trial, and compared to standard of care.
An outpatient rehabilitation program for children (6 months to less than 6 years old) with Spinal Muscular Atrophy (SMA) treated with genetic based therapies is being studied. Participants will participate in a 12-week therapy program where they receive 45 minutes each of occupational therapy and physical therapy each week. Home exercises will also be prescribed to be completed 5 days per week. At the end of the therapy program, there will be a 12-week period of no therapy where only home exercises will be completed. Assessments and program evaluation will occur at the beginning (Week 0) and end of the rehabilitation program (Week 24), then at the end of the no therapy block (week 24).
Severe skeletal wasting and catabolic weight loss are highly common among patients with heart failure with reduced ejection fraction (HFrEF). This prospective randomized controlled trial will compare changes in the muscle mass in the arms and the legs (appendicular lean mass) in patients with HFrEF randomized between 3 groups of no, low- or high-dose protein supplementation. The dietary protein supplementation will be Ensure(R) products manufactured by Abbott Nutrition. The Investigators hypothesize that skeletal muscle wasting in HFrEF is promoted by neurohumoral activation of catabolic metabolism (such as GDF-15 and ActRII pathways) and can be at least partially reversed by increased dietary protein intake. It is anticipated that this study will determine whether dietary protein supplementation helps to prevent muscle wasting and will advance understanding of the GDF-15 and ActRII muscle wasting pathways.