View clinical trials related to Neuromuscular Diseases.
Filter by:The aim of the investigator's study was to investigate translating the PedsQL 3.0 Neuromuscular Module for 2-to 4- Year-old and using it in clinics reliably and validity with a Turkish version of the PedsQL Generic Core (Pediatric Quality of Life Questionnare) in children with Spinal Muscular Atrophy in Turkey
Congenital myopathies (CM) is a large group of muscle disorders, presenting with hypotonia and non-progressive generalised muscle weakness, which can lead to motor developmental delay.More than 20 genes can cause CM and currently there is no curative treatment for this disorder. Case reports and a smaller study have previous reported that oral salbutamol has benefited subjects with different types of congenital myopathies by increasing their muscle strength.The exact effect of salbutamol in muscle cells isn't exactly known but it has been hypothesized to have an anabolic effect by triggering different pathways inside the muscle cells which increase cell proliferation, decrease apoptosis, decreases proteolysis and increases protein synthesis. The aim of our study is evaluate if daily oral salbutamol can increase the muscle function and muscle strength in these patients after 6 months on treatment, compared to no treatment.
The purpose of this study is to investigate the impact of expiratory muscle strength training (EMST) on the swallowing, breathing, oral intake, quality of life and cough function of people with oculopharyngeal muscular dystrophy (OPMD).
The study compares the effects of two types of massage: a conventional massage and a functional massage, in the neuromuscular response of the gastrocnemious muscles.
The study observes the effect of a pre-event massage on the gastrocnemius muscles over the neuromuscular response of the gastrocnemious muscles.
The aim of this study is to better discriminate respiratory muscle dysfunction by comparing the measurements of thoracoabdominal motion obtained by an optoelectronic recording and the conventional tests of respiratory muscle strength. The final objective is to better select in the future the patients who need more specific assessment of diaphragmatic function like "maximal transdiaphragmatic pressure" measurement and "phrenic nerve stimulation".
The investigators laboratory has been studying families with a history of ALS for more than 30 years and is continuing to use new ways to understand how genes may play a role in ALS, motor neuron disease and other neuromuscular disorders. The purpose of this study is to identify additional genes that may cause or put a person at risk for either familial ALS (meaning 2 or more people in a family who have had ALS), sporadic ALS, or other forms of motor neuron disease in the hopes of improving diagnosis and treatment. As new genes are found that may be linked to ALS in families or individuals, the investigators can then further study how that gene may be contributing to the disease by studying it down to the protein and molecular level. This includes all forms of ALS, motor neuron disease and ALS with fronto-temporal dementia(ALS/FTD). We also continue to study other forms of neuromuscular disease such as Miyoshi myopathy, FSH dystrophy and other forms of muscular dystrophy by looking at the genes that may be associated with them. There have been a number of genes identified that are associated with both familial and sporadic ALS, with the SOD1, C9orf72, and FUS genes explaining the majority of the cases. However, for about 25% of families with FALS, the gene(s) are still unknown. The investigators also will continue to work with families already identified to carry one of the known genes associated with ALS.