View clinical trials related to Neuromuscular Diseases.
Filter by:Competent family caregivers (FC) are essential for successful caring for individuals with NMD. However, family caregiving is known to contribute to significant FC burden and social isolation, and negatively affects FC health. Infrastructure to support FCs is paramount to ensure that individuals with NMD can safely remain at home. Individuals with NMD have complex health problems, require a lot of care and they use the healthcare system often. COVID-19 physical distancing has increased the care burden and social isolation for many FCs. Infrastructure to support FCs is paramount to ensure that individuals with NMD can safely remain at home. Peer support includes emotional and informational support by an individual that has experienced a similar health problem. It improves health-related quality of life, increases self-efficacy and empowerment, and decreases stress in various patient and caregiver populations. With our study we plan to educate and empower individuals with NMD and their caregivers and develop a comprehensive peer support program.
Respiratory muscle testing allows a quantitative assessment of inspiratory and expiratory muscles in children of any age with primary or secondary respiratory muscle impairment, in order to better understand the pathophysiology of respiratory impairment and guide therapeutic management. The use of an invasive technique (esogastric probe) makes it possible to specifically explore the diaphragm, the accessory inspiratory muscles and the expiratory muscles in order to detect dysfunction or paralysis of these muscles, and to estimate the work of breathing in order to better guide the respiratory management. The primary objective of the study is to evaluate the respiratory effort in children with primary or secondary impairment of the respiratory muscles during spontaneous breathing or during mechanical ventilation.
The neuromuscular disorders could be briefly divided to neuropathy, myopathy, motor neuron disease, and neuromuscular junction disorder. In the past, the evaluation of the neuromuscular disorders depended on several ways (ex. electrodiagnostic studies and biopsy) to evaluate the pathophysiology and the pathological change. However, due to the issue of resolution, few image studies were available to evaluate the structure for clinical practice. With the growing techniques, there are two ways to see the nerve and muscle in vivo, the magnetic resonance imaging (MRI) and the ultrasonography. The availability of the machine, the high cost, inability to change the position for dynamic views of the nerves, and the relative invasion considering the large energy penetrating the patient might limit the clinical use of MRI. The nerve ultrasonography is a safe and easily available technique. The development of high-frequency transducers has led to an improvement in the resolution of ultrasonography and enables the exploration of peripheral nerve and muscle structural changes. In additional to evaluate the morphological changes, ultrasonography has been used extensively for the vessel status assessment through duplex ultrasound. In present study, we will apply variable approaches, including to muscle, nerve, and skin biopsy, electrophysiological study, quantitative sensory testing, autonomic functional tests, pain evoked potentials, MRI, and ultrasonography to integrally investigate the different aspects of neuromuscular disorders. The results of the study will provide integrated insights of (1) the neurophysiology of nerve and vessels and (2) pathogenesis of different neuromuscular disorders.
Dysfunction due to weakness in respiratory muscles is one of the biggest problem that causes mortality and morbidity in neuromuscular diseases.Since the NMD have a crucial life-threading natural progression, many clinicians and researchers are trying to working out to increase life span and/or quality of life with medical and rehabilitative approaches.The relationship between upper extremity functions and respiratory functions in pediatric neuromuscular patients is still not clear. The clinician working with children with neuromuscular disease should be aware of the effects of muscle weakness and cognitive dysfunction on the respiratory system. Symptoms can be insidious and cause progressive loss of function, respiratory failure, and even death
This database will describe sitting postural control in wheelchair, as well as PW pain, and pressure ulcers associated with sitting, in patients with neuromuscular disease (NMD).
The study observes the effect of a pre-event massage on the gastrocnemius and Hamstring muscles on muscle activity.
The primary aim of this study is to evaluate the agreement of MIE devices measurement of MIE assisted peak cough flow (PCF) compared with a pneumotachographs during usual MIE care. This will be the first study to do this through range of MIE pressures and include patients who are receiving MIE via a tracheostomy. It will also aim to evaluate the intra-subject repeatability of measures for patients who receive more than one MIE cycle as part of their usual care. It will be the first to measure MIE assisted PCF contemporaneously during intervention using the gold standard pneumotachograph. This will inform treatment effect size and the efficacy of usual practice MIE in augmenting PCF measurements above critical cut off values for effective cough and secretion clearance. Finally the study will also aim to understand how patients perceive the impact of MIE in clearing secretions from their chest by asking them to rate presence of chest secretions pre and post intervention using a visual analogue scale (VAS)
The primary aim is to characterize the prevalence, severity and quality of musculoskeletal nociceptive pain in adult patients with neuromuscular disorders (NMD). The secondary objectives are to evaluate whether severity and distribution of muscle pain is associated with muscle function, and to assess whether muscle pain is associated with alterations of muscle elasticity and muscle stiffness. Results of patients with neuromuscular disorders will be compared to age- and gender-matched healthy volunteers. Approx. 70 patients with neuromuscular disorders and 20 healthy volunteers will be enrolled, including patients with the following neuromuscular disorders: histologically confirmed inclusion body myositis (IBM), genetically confirmed late-onset Pompe disease (LOPD), genetically confirmed spinal muscular atrophy type 3 (SMA3), genetically confirmed facio-scapulo-humeral muscle dystrophy (FSHD), genetically confirmed myotonic dystrophy type 1 or type 2 (DM1, DM2). The duration of patient recruitment will be around 12 months.
Reaching active aging makes it important to implement new methods affecting the biological age of a person. Biochemical parameters of a blood test are aging biomarkers that are ones of the most accessible for testing. We know that, with age, there is increase in levels of LDL, triglycerides, homocysteine and other biomarkers relating the body state. Methods of extracorporeal hemocorrection showed good results in this area. For instance, the use of plasmapheresis is very effective during prophylaxis, treatment and rehabilitation after various diseases/injuries. The main effects of plasmapheresis are related to removal of endo- and exotoxins, including products of lipid peroxidation, and to draining effect as a result of a heavy flow of interstitial fluid containing products of pathometabolism into the blood stream within concentration gradient (by "dynamic equilibrium" in concentration of different substances in intracellular, interstitial and intravascular compartments). These effects are also related to release of receptors, their sensitization to their own neurohumoral regulation mechanisms, to insulin, in particular (as consequences, lower glucose tolerance, lower substrate glycation).
Neuromuscular Diseases (NMDs) affect > 7 million people worldwide. NMDs are often difficult to accurately diagnose, with over 200 different genetic causes with overlapping clinical presentations. Muscle Magnetic Resonance Imaging (Muscle MRI) allows for non-invasive, comprehensive, and reproducible evaluation of disease-affected and spared muscles. The selective replacement of muscle tissue by fat is the main contributor to pathological patterns determined by T1-weighted Muscle MRI. Although the diagnostic utility of Muscle MRI has been emphasized in the last years, the very low incidence of NMDs (rate .01 to 15 per 100,000 population), and the challenge to attain sufficient sample sizes to study the imaging characteristics of these patients have limited their acceptance as first-line, non-invasive diagnostic procedures. We aim to study the selective pattern of muscle pathology as detected by MRI of different sub-types of NMDs and validate this technique as an important and helpful non-invasive diagnostic screening tool. We will prospectively assemble a well-defined cohort of 1000 patients with NMDs undergoing whole body Muscle MRI from 7 Canadian and 7 international centers. We will develop a high-standard methodological approach for MRI diagnosis in this cohort, based on T1 weighted imaging characteristics, and will validate this method by testing the developed algorithm in a different cohort of patients. Muscle MRI scans will be collected by a well-established network of neuromuscular disease (NMD) centers to ensure comparability between the different centers.