View clinical trials related to Neuromuscular Diseases.
Filter by:The Motor Function Measure (MFM) is a functional rating scale consisting of 32 items assessing motor functional abilities in a person with neuromuscular disease. By exploring the potential of digital technologies applied to MFM, for each item completion we want to create digital animations containing different playful and informative scenarios. This digital evolution aims to standardize assessment on the therapist's side, but also to improve acceptance of scale and patient participation. Despite the modification of the MFM completion by digital animation, the study hypothesis is that the metrological qualities of the scale are retained. Through the MFM-Play pilot study, the objective is to test 5 items of the MFM-Play scale before carrying out a validation study of the total MFM-Play.
Background: Neuromuscular diseases (NMD) represent a broad group of rare genetic and acquired disorders, affecting over 300,000 people in Canada. Given the multiple different NMD subtypes, almost half of patients with NMD remain undiagnosed. Objective: The purpose of this study is to identify genetic or other markers in patient biosamples (e.g. blood, muscle, skin samples), electrodiagnostic studies or imaging that may help physicians and scientists provide faster ways to diagnose patients with NMD, study disease progression, and discover underlying disease mechanisms that may lead to future NMD therapies. Eligibility: Adults with NMD Design: Participants will have blood and/or tissue samples, and data from clinical information, imaging, and electrodiagnostic studies collected. Sample and data collection at the Neuromuscular Center, The Ottawa Hospital may include blood, DNA, saliva, cerebrospinal fluid, urine and stool samples, skin or muscle biopsy, and routine diagnostic imaging studies such as electrodiagnostic studies, ultrasound, and magnetic resonance imaging.
The primary objective of this study is to assess stiffness, muscle tone, relaxation periods and elasticity of various muscles in patients with dystrophic or non-dystrophic myotonia. The secondary objectives are (1) to provide reference values for stiffness, muscle tone, relaxation periods and elasticity of various muscles in patients with dystrophic or non-dystrophic myotonia; to provide reference values for stiffness, muscle tone, relaxation periods and elasticity of various muscles in patients with non-myotonic neuromuscular disorders, (3) assess correlations between to compare result values for stiffness, muscle tone, relaxation periods and elasticity with clinical muscle function tests, measured by clinical evaluation (MRC-scale) and the 6-minute walk test; (4) assess correlations between subcutaneous fat and muscle thickness and echogenicity, measured by muscle ultrasound and result values for stiffness, muscle tone, relaxation periods and elasticity.
"Brain-computer interfaces (BCIs) are computer-based systems that acquire brain signals, analyze them, and translate them into commands that are relayed to an output device to carry out a desired action. BCIs represent a very active and promising field of research among devices for people with severe motor disabilities. As the currently available systems correspond to research prototypes, they are not adapted to daily live situations. On the other hand, some systems have recently been commercialized, principally for video games but they are not satisfactory for use as a substitute technology in disability. A BCI's prototype for alternative communication using a virtual keyboard, the P300 Speller, has been developed by the National Institute for Research in Digital Science and Technology (Athena team - Nice University). This prototype includes an EEG-cap with gel based active electrodes. A recent study conducted on 20 patients with ALS (University Hospital, Nice) demonstrated the usability of the system and the patient satisfaction concerning the ease of use and utility. To achieve a system that can be used in daily live in severely disabled patients, technical developments are necessary. The investigators have conceptualized and developed an ergonomic, comfortable, headset, including dry electrodes to allow a prolonged use of the system. The purpose of the study conducted all along the development of the headset is to improve the developed system until a successful system is achieved. This study is a monocentric usability study conducted on ALS people.
The instrumental evaluation of standing postural control by posturographic analysis supplements the clinical evaluation and, as such, is recommended by the French National Authority for Health (HAS 2007). The quantitative data obtained after a standardized postural examination appear relevant for the longitudinal follow-up of neuromuscular patients and hemiparetic patients. Neuro muscular (NM) diseases are progressive, these instrumental evaluations can highlight a deterioration or stabilization of postural control possibly not observable with the scores on clinical scales. The K-Force Plates, recently developed appear to be an interesting alternative to the stabilometry platforms currently used. Static and dynamic conditions in upright position are tested. Moreover, posturologic, kinematics data and clinical scores are correlated to increase understanding of strategies during postural control tasks in patients with stroke and in patients with NM disorders.
To determine the quality of life of patients living with chronic respiratory failure and the impact interventions have on it.
it will be conducted a randomized parallel controlled trial with patients diagnosed with Amyotrophic Lateral Sclerosis (ALS) to compare two techniques to lung recruitment and cough augmentation, to assess their effects on pulmonary function, global functionally, swallowing and ability to speech in these population.
This present study will be devoted to the first clinical study on the efficacy of the BELK system in enhancing mobility and improve the knee rehabilitation process in people with NeuroMuscular Diseases (NMD) and Central Nervous System (CNS) disorders with knee instability that implies deficit in gait and in locomotion during ADL. Participants will receive a 6-week training program (3 weeks with the BELK orthosis knee module) in a clinical setting in add-on to the standard neuro-rehabilitation treatment. Gait analysis and Instrumental Test will be performed every week till the end of the six-week training period while the Clinical Scales and Questionnaires will be performed after three weeks and at the end of the training period. Finally, additional outcome measures comprise the scores on the System Usability Scale (SUS) to evaluate the hardware and the Software Usability Measurement Inventory (SUMI) to evaluate the software of the BELK orthosis. These two measures will be administrated at the end of training with Belk orthosis, to rate patients' and operators' (e.g., physical therapist, medical doctors) satisfaction. During 2018, the company GOGOA (www.gogoa.eu), specialized in design, manufacturing and commercialization of Robotic Assisted Rehabilitation (RAR) systems, has developed a first prototype of the BELK system, a powered wearable robotic device that can be used for knee rehabilitation, in the sub-acute phase of knee injuries. As BELK is a wearable device, it can be used both, by the physiotherapist in the rehabilitation centers, improving the knee rehabilitation process and increasing patients' comfort, and accelerating their rehabilitation process. Casa di Cura del Policlinico (CCP https://www.ccppdezza.it/en/) is a fully integrated multi-specialty clinical center aiming at providing both inpatient and outpatient services mainly directed to neurological patients. The Center is constituted as a Department of Neuro-rehabilitation Sciences, accredited by the Italian National Health System, and economically supported by Regione Lombardia. CCP offers to chronic neurological patients the highest comprehensive standards of care in a comfortable environment, through a multidisciplinary patient management approach organized around a core rehabilitation program.
Patients with neuromuscular diseases (NMD) can suffer from a range of respiratory problems due to respiratory muscle weakness. Cough muscle weakness means secretion clearance from the airways can be problematic, a source of infection, and importantly a cause of death, in this patient group. Therefore, these patients are often supported with devices to aid clearance, such as mechanical insufflation-exsufflation (MIE). Although evidence supports the use of these devices, the optimal technique or settings on the device are not clear. Increasingly, higher pressures are used during MIE and recent work has demonstrated that there may be a physiological benefit to this. However, higher pressures increase the risk of causing lung collapse and may cause detriment to blood flow back to the heart, which is important as NMD patients frequently have concurrent heart muscle weakness. Further, recent work has demonstrated that higher pressures can cause closure of the throat, which is counter-productive in secretion clearance. The overall aim of this study is to investigate methods to manipulate MIE to improve secretion clearance in patients with NMD. The questions it seeks to answer are: (i) how can we maximally improve lung recruitment during inspiration, whilst maintaining patient comfort and lower pressures (ii) what is the smallest pressure difference required in expiration to achieve an improvement in cough (iii) do these proposed changes to MIE also cause throat closure (iv) what factors do patients believe contribute to their adherence to MIE therapy? Patients with slowly progressive or stable neuromuscular diseases will be included in the study. Participation will involve two visits to the Lane Fox Respiratory Unit, each lasting approximately four hours. Patients will be recruited from specialist neuromuscular respiratory clinics by their clinical teams.
Over the past four decades, it has become clear that childhood physical activity carries with it a myriad of beneficial effects. It is closely linked to quality of life and the recognized benefits include, but are not limited to, optimal growth and development, a healthier self-concept, enhanced peer socialization, and decreased anxiety and depression. Long term, an active lifestyle decreases the risk of many important physical and mental morbidities. Thus, the observation that children living with medical conditions and disabilities (MC&D) today, although surviving longer thanks to advances in medical care, are much less active than their peers is a matter of significant concern. Research indicates that the 350,000 Ontario children with MC&D have lower levels of physical activity, higher screen time and more frequent sleep problems. While the reasons underlying this reality are complex, previous research has identified a substantial subset of children who are motivated to be active but lack the confidence to do so. Fear of pain, concern for MC&D exacerbation and a lack of confidence in individual physical movement capacity contribute to their hesitation. Clinical experience suggests that these children represent 50% to 70% of inactive patients. Research indicates that being motivated to make a change and having the confidence that the desired change can be achieved are the essential precursors upon which successful behaviour change initiatives are built. This randomized, controlled trial will explore whether group sessions with a Registered Kinesiologist lead to a direct bolstering of physical activity confidence, and in turn to increased and sustained physical activity in these children. Such an approach holds the promise of a nonpharmacologic, low cost and accessible means of enhancing health that shall be met with a high level of patient and family support while bringing a significant societal and medical return on investment.