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Showing 1-15 of 15 trials
NCT05199246
The aims of the current study are as follow: i) Evaluate the safety, usability, and acute efficiency of a programmable ambulation exoskeleton (KeeogoTM Dermoskeleton System, B-Temia Inc., Quebec, Canada) in patients with neuromuscular disorders, ii) Elaborate recommendations regarding usability criteria for safe and efficient use the device in patients with neuromuscular disorders (e.g. type and severity of patient's functional deficits), iii) generate necessary data to foresee a future study involving a home use of the device and assessment of long-term benefits.
NCT05200702
The aims of the current study are as follow: i) Evaluate the safety, usability, and acute efficiency of a powered knee-hip dermoskeleton (MyoSuit, MyoSwiss, Zurich, Switzerland) in patients with neuromuscular disorders, ii) Elaborate recommendations regarding usability criteria for safe and efficient use the device in patients with neuromuscular disorders (e.g. type and severity of patient's functional deficits), iii) generate necessary data to foresee a future study involving a home use of the device and assessment of long-term benefits.
NCT06819683
Past mitochondrial disease treatment studies have been unsuccessful in determining treatment efficacy, and a major factor has been the lack of validated biomarkers in mitochondrial myopathy (MM). There is currently a growing number of potential new treatments to be tested through MM clinical intervention trials, which has created a pressing need for quantitative biomarkers that reliably reflect MM disease severity, progression, and therapeutic response. The purpose of the study is to measure the efficacy of an electrochemical oxygen nanosensor to measure in vivo mitochondrial function in human muscle tissue, and its ability to discriminate MM patients from healthy volunteers. The data and results from this nanosensor study may contribute to current and future research, including improved diagnostic and therapeutic approaches for patients with mitochondrial disease.
NCT05569122
This is a multi-aim study, studying the effects of conventional exercise (measured through Cardiopulomary Exercises Testing or an in-bed pedal exercise) and passive exercise through periodic acceleration (pGz). Aim 1 will focus on the differences between primary mitochondrial disease (PMD) patients and healthy volunteers. Aim 2 is an exploratory aim, which will be studying the effects in patients admitted to the Children's Hospital of Philadelphia Pediatric Intensive Care Unit (PICU).
NCT05653544
This is a longitudinal study in a cohort of patients with a genetic diagnosis of Primary Mitochondrial Myopathy to describe the natural history of the disease and identify clinical, biochemical, molecular, and radiological variables that allow evaluation of the severity and progression of the disease and may be useful in future clinical trials.
NCT06080594
The overarching aim of this intervention study is to interrogate the interconnection between the muscle mitochondrial adaptations and the changes in muscle insulin sensitivity elicited by exercise training in individuals harbouring pathogenic mitochondrial DNA mutations associated with an insulin-resistant phenotype. In a within-subject parallel-group longitudinal design, participants will undergo an exercise training intervention with one leg, while the contralateral leg will serve as an inactive control. After the exercise intervention, patients will attend an experimental trial including: * A hyperinsulinemic-euglycemic clamp combined with measurements of femoral artery blood flow and arteriovenous difference of glucose * Muscle biopsy samples
NCT05554835
The main goal of the project is provision of a global registry for mitochondrial disorders to harmonize previous national registries, enable world-wide participation and facilitate natural history studies, definition of outcome measures and conduction of clinical trials.
NCT06051448
The goal of this study is to find the best way to help people with primary mitochondrial disease deal with the stress of their condition, and to help these people be better able to "bounce back," or be resilient. In order to do this, the investigators are going to test two interventions (an intervention means that it aims to change something): Promoting Resilience in Stress Management (PRISM) and clinical-focused narrative (CFN) intervention.
NCT05012358
This study is an observational longitudinal study involving the use of MRIs and video recordings taken at home of patients completing basic tasks. Once consent is obtained, subjects will be asked to schedule an appointment with radiology to undergo the listed MRIs of the heart and/or muscle. Subjects will also be given instructions on how to use the video recording app on their personal devices, or study provided device. The subjects will be followed regularly over the course of two years, submitting video recordings of their movements and reporting to Mayo Clinic for MRIs as scheduled.
NCT05962333
The first primary objective is to assess the effect of three intra-arterial administrations of autologous mesoangioblasts (MABs) with respect to improving muscle strength and reduce fatigue of the treated biceps brachii (BB) compared to the untreated BB. The second primary objective is safety of three intra-arterial administrations of autologous MABs, which the investigators will assess by monitoring (serious) adverse events ((S)AEs), blood flow in left arm pre- and post-intervention, and neurological vital signs during 8h post-intervention observation in the hospital. Secondary objectives are to assess changes in muscle mass of the treated and untreated BB muscle, and microscopic changes and m.3243A\>G mutation load at tissue level in treated biceps brachii (BB) muscle at baseline and after treatment. Up to 20 adult m.3243A\>G patients will undergo a \~30mg m. biceps brachii muscle biopsy at visit 1. The first six eligible patients will enroll the clinical study based on their m.3243A\>G mutation load in skeletal muscle (50-90%) and mesoangioblasts (\<10%), and on a decreased BB muscle strength and increased fatigue. These 6 selected patients will visit the Maastricht University Medical Center for 8 additional times. From each patient, during visit 2 till 9: * BB muscle biopsies of the left arm will be collected (1x \~130 mg at visit 2 and 1x \~30mg at visit 9) * MRI of the BB muscles in both arms will be performed (visit 2 and 9). * Autologous MABs will be injected into the left arm via axillary artery delivery. Angiography will be performed before and after infusion to assess vascular obstructions, and the participant will be monitored in the hospital for 8 hours (visit 4,6,8). * Tc99m macroaggregated albumin (MAA) is infused to quantify blood flow to the BB muscle (visit 4). * A bout of maximal eccentric exercise of BB muscles on both sides will be executed at visit 3, 5 and 7. * BB muscle strength will be assessed using a Biodex dynamometer (visit 3-9) * venous blood samples will be taken for assessing muscle damage and inflammation markers (visit 3-9), kidney functioning, coagulation and viral screening (visit 1 and 2).
NCT05063721
Rationale: Mitochondrial disorders are progressive, often fatal multisystem disorders, in 20-25% of the cases caused by heteroplasmic mutations in the mitochondrial DNA (mtDNA). At this moment, there is no effective treatment known to influence the disease process or manifestation. Myogenic stem cell-based therapies complementing defective muscle cells and fibres, are highly promising to combat the myopathy and exercise intolerance which affect \>50% of heteroplasmic mtDNA mutation carriers. Myogenic stem cells called mesoangioblasts (MABs), are currently the only myogenic precursors that fulfil all criteria to be used as advanced therapy medicinal product (ATMP) for systemic treatment. The researchers have demonstrated that MABs of most m.3243A\>G carriers contain no or only a low amount (\<10%) of the mtDNA mutation, allowing direct ex vivo expansion of patient-derived MABs. The overall aim is to induce muscle regeneration using these autologous MABs with a mutation load of \<10%, as an advanced therapy medicinal product (ATMP). Objective: The phase I trial will consist of an intra-arterial injection (via catheter in femoral artery) of the autologous MABs in the left lower leg of 5 m.3243A\>G patients.
NCT03432871
Mitochondria are important parts of the cell that are responsible for producing energy. The amount of energy they produce depends on how much energy the body needs to function and this energy production can be severely impaired in people with mitochondrial disease. Symptoms of mitochondrial disease vary widely but usually involve the brain, nerves and muscles, as these are tissues that need a lot of energy. Mitochondrial disorders affect 1 in 5000 of the UK population and there is currently no cure. Some scientists think that increasing the number of mitochondria in the body (mitochondrial biogenesis) might be an effective treatment for the symptoms of mitochondrial disease. Studies carried out in mice have shown that a type of B-vitamin called Nicotinamide Riboside (NR) is able to increase the number of mitochondria, leading to increased energy and a reduction in the symptoms of mitochondrial disease. The aim of this study is to investigate if the same B vitamin, Nicotinamide Riboside, can increase energy production and reduce symptoms in humans with mitochondrial disease. The study will consist of two parts: Part 1: Participants will be given a single oral dose of Nicotinamide Riboside and the levels of NR in their bloodstream will be measured at regular intervals. This will involve a single overnight stay and simple blood tests. Part 2: This requires 6 separate visits from each participant. Each participant will undergo a series of standard tests including a muscle biopsy and an MRI scan, then they will take a course of Nicotinamide Riboside (twice daily for 4 weeks). After 4 weeks of treatment, the participants will undergo the same tests again to see if there have been any changes in response to the treatment.
NCT03888716
This will be a double blind, randomised, placebo controlled, single and multiple oral dose study conducted in 3 parts: Part A, Part B and Part C. Part A and Part B include healthy volunteers only and will be completed before Part C including patients with primary mitochondrial disease will be initiated. The starting dose in the first cohort of Part A will be 25 mg. The dose level in the additional cohorts will be decided following review of data of the previous cohorts.
NCT02909400
Mitochondrial Diseases are rare, progressive, multi-system, often-early fatal disorders affecting both children and adults. KH176 is a novel chemical entity currently under development for the treatment of inherited mitochondrial diseases, including MELAS (Mitochondrial Encephalomyopathy, Lactic acidosis, and Stroke-like episodes), MIDD (Maternally Inherited Diabetes and Deafness), Leigh's Disease and LHON (Leber's Hereditary Optic Neuropathy). The current Proof of Concept study aims to explore the effects of treatment with KH176 for 4 weeks on clinical signs and symptoms and biomarkers of mitochondrial disease and to evaluate the safety and pharmacokinetics of KH176 in patients with m.3242A\>G related mitochondrial disease.
NCT02375438
The aim of this study is to assess nutritional intake (quantitatively and qualitatively), nutritional state and body composition of patients suffering from mitochondrial cytopathy, compared to healthy controls. The energy intake will be calculated through dietary protocols, the energy expenditure by indirect calorimetry and body composition will be performed with bio-impedance analysis. Further on, the investigators expect to be able to provide nutritional counselling to this population in order to increase energy and protein intake, which may improve health and well-being.