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Active clinical trials for "Mitochondrial Myopathies"

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The KHENERGYZE Study

Mitochondrial DiseasesMitochondrial Myopathies3 more

Mitochondrial diseases, estimated prevalence 1 in 4,300 adults, is caused by pathogenic mutations in genes finally encoding for mitochondrial proteins of the various enzyme complexes of the OXPHOS. Among these mutations, the 3243A>G nucleotide change in the mitochondrially encoded transfer RNALeu(UUR) leucine 1 gene (MT TL 1) is the most prevalent one. The OXPHOS dysfunction resulting from such mutations leads to increased production of reactive oxygen species (ROS), ultimately leading to irreversible oxidative damage of macromolecules, or to more selective and reversible redox modulation of cell signaling that may impact (adult) neurogenesis. Despite advances in the understanding of mitochondrial disorders, treatment options are extremely limited and, to date, largely supportive. Therefore, there is an urgent need for novel treatments. KH176, a new active pharmaceutical ingredient (API), is an orally bio-available small molecule under development for the treatment of these disorders (see Section 1.4). The current study will further evaluate the effect of KH176 in various cognitive domains and evaluate the effect of different doses of KH176 (See Section 1.5). In view of the growing recognition of the importance of mitochondrial function in maintaining cognitive processes in the brain, as well as the understanding of the safety profile and pharmacokinetics of KH176 following the two clinical studies described above, a more detailed study is indicated of the effects of KH176 in various cognitive domains, using the confirmed safe and well-tolerated KH176 dose of 100 mg bid, as well as a lower dose of 50 mg bid. The primary objective is an evaluation of KH176 in the attention domain of cognitive functioning, as assessed by the visual identification test score of the Cogstate computerised cognitive testing battery.

Completed62 enrollment criteria

Safety, Tolerability, Efficacy of MTP-131 for Treatment of Mitochondrial Disease in Subjects From...

Primary Mitochondrial Disease

This randomized, double-blind, placebo-controlled, crossover study screened 32 subjects with primary mitochondrial myopathy (PMM) to evaluate the safety, tolerability, pharmacokinetics (PK), and efficacy of subcutaneous elamipretide in this patient population.

Completed15 enrollment criteria

Pilot Compassionate Use Study of Thioctic Acid Treatment in Mitochondrial Myopathy

Mitochondrial Myopathy

OBJECTIVES: I. Assess the efficacy of thioctic acid in treating a single patient with mitochondrial myopathy.

Completed8 enrollment criteria

A Study of Bezafibrate in Mitochondrial Myopathy

Mitochondrial Diseases

The purpose of this study is to gather preliminary data on whether bezafibrate can improve cellular energy production in mitochondrial disease. Mitochondrial diseases are rare inherited disorders that arise due to deficient energy production within the cells of the body. Consequently, the typical clinical features arise in organs with high energy requirements. Mitochondrial disorders exhibit highly variable clinical effects, both between individuals and within families. Characteristic symptoms include muscle weakness (myopathy), hearing loss, migraine, epilepsy and stroke like episodes in addition to diabetes and heart problems. Mitochondrial disorders can therefore impact considerably on both quality of life and life expectancy. Despite this, no proven disease modifying treatments are available. Pre-clinical studies have identified that several existing medications improve mitochondrial function. Of these, bezafibrate has the best supportive data and, because it is already licensed as a treatment for high blood fats, has a well characterised side effect profile. The investigators will therefore conduct a feasibility study of bezafibrate in people with mitochondrial myopathy. Ten affected participants will be recruited and will receive a titrating course of bezafibrate three times daily for 12 weeks.

Completed24 enrollment criteria

Niacin Supplementation in Healthy Controls and Mitochondrial Myopathy Patients

Mitochondrial Myopathies

The most frequent form of adult-onset mitochondrial disorders is mitochondrial myopathy, often manifesting with progressive external ophthalmoplegia (PEO), progressive muscle weakness and exercise intolerance. Mitochondrial myopathy is often caused by single heteroplasmic mitochondrial DNA (mtDNA) deletions or multiple mtDNA deletions, the former being sporadic and latter caused by mutations in nuclear-encoded proteins of mtDNA maintenance. Currently, no curative treatment exists for this disease. The investigators have previously observed that supplementation with an NAD+ precursor vitamin B3, nicotinamide riboside, prevented and delayed disease symptoms by increasing mitochondrial biogenesis in a mouse model for mitochondrial myopathy. Vitamin B3 exists in several forms: nicotinic acid (niacin), nicotinamide, and nicotinamide riboside, and it has been demonstrated to give power to diseased mitochondria in animal studies by increasing intracellular levels of NAD+, the important cofactor required for the cellular energy metabolism. In this study, the form of vitamin B3, niacin, was used to activate dysfunctional mitochondria and to rescue signs of mitochondrial myopathy. Of the vitamin B3 forms, niacin, is employed, because it has been used in large doses to treat hypercholesterolemia patients, and has a proven safety record in humans. Phenotypically similar mitochondrial myopathy patients are studied, as the investigator's previous expertise indicates that similar presenting phenotypes predict uniform physiological and clinical responses to interventions, despite varying genetic backgrounds. Patients either with sporadic single mtDNA deletions or a mutation in a Twinkle gene causing multiple mtDNA deletions were recruited. In addition, for every patient, two gender- and age-matched healthy controls are recruited. Clinical examinations and collection of muscle biopsies are performed at the time points 0, 4 and 10 months (patients) or at 0 and 4 months (controls). Fasting blood samples are collected every second week until 4 months and thereafter every six weeks until the end of the study. The effects of niacin on disease markers, muscle mitochondrial biogenesis, muscle strength and the metabolism of the whole body are studied in patients and healthy controls. The hypothesis is that an NAD+ precursor, niacin, will increase intracellular NAD+ levels, improve mitochondrial biogenesis and alleviate the symptoms of mitochondrial myopathy in humans.

Completed11 enrollment criteria

NiaMIT Continuation With Early-stage Mitochondrial Myopathy Patients

Mitochondrial Myopathies

The most frequent form of adult-onset mitochondrial disorders is mitochondrial myopathy, often manifesting with progressive external ophthalmoplegia (PEO), progressive muscle weakness and exercise intolerance. Mitochondrial myopathy is often caused by single heteroplasmic mitochondrial DNA (mtDNA) deletions or multiple mtDNA deletions, the former being sporadic and latter caused by mutations in nuclear-encoded proteins of mtDNA maintenance. Currently, no curative treatment exists for this disease. However, an NAD+ precursor vitamin B3 has been demonstrated to give power to diseased mitochondria in animal studies by increasing intracellular levels of NAD+, the important cofactor required for the cellular energy metabolism. Vitamin B3 exists in several forms: nicotinic acid (niacin), nicotinamide, and nicotinamide riboside. Nicotinamide riboside has been shown to prevent and improve disease symptoms in several mouse models of mitochondrial myopathy. In addition, the investigators have previously observed that treatment with another form of vitamin B3, niacin, improved NAD+ deficiency and muscle performance in mitochondrial myopathy patients. In this study, the form of vitamin B3, niacin, is used to activate dysfunctional mitochondria and to rescue signs of mitochondrial myopathy in early-stage patients. Of the vitamin B3 forms, niacin, is employed, because it has been used in large doses to treat hypercholesterolemia patients, and has a proven safety record in humans. Phenotypically similar mitochondrial myopathy patients are studied, as the investigator's previous expertise indicates that similar presenting phenotypes predict uniform physiological and clinical responses to interventions, despite varying genetic backgrounds. Patients with mitochondrial myopathy, typically harboring a sporadic single mtDNA deletion or a mutation in nuclear mtDNA maintenance gene causing multiple mtDNA deletions, are recruited. In addition, data from healthy controls from the primary NiaMIT study (ClinicalTrials.gov Identifier: NCT03973203) are utilized to analyse the collected data. Clinical examinations and collection of muscle biopsies are performed at the time points 0 and 10 months. Fasting blood samples are collected every second week until 1.5 months, every fourth week until 4 months and thereafter every six weeks until the end of the study. The effects of niacin on disease markers, muscle mitochondrial biogenesis, muscle strength and the metabolism of the whole body are studied in patients and healthy controls. The hypothesis is that an NAD+ precursor, niacin, will increase intracellular NAD+ levels, improve mitochondrial biogenesis and alleviate the symptoms of mitochondrial myopathy already in early stages of the disease.

Completed10 enrollment criteria

The Effects of Exercise Versus Inactivity on People With Mitochondrial Muscle Disease

Mitochondrial Myopathy

Mitochondrial myopathies include various inherited diseases that are caused by damage to the mitochondria, energy-producing structures that fuel the body's processes. The main symptoms are muscle weakness, reduced muscle mass, and difficulty with exercising. The purpose of this study is to determine the effects of exercise training versus inactivity on mitochondrial function in muscle and muscle performance in people with mitochondrial myopathies.

Unknown status11 enrollment criteria

A Single Case Study of Hypermetabolism

Hypermetabolism Due to Defect in MitochondriaLuft Disease

In the Metabolic Disorder clinic at The Hospital for Sick Children, the investigators identified a male, proband with possible Luft's disease. The investigators hypothesize that Luft's disease is caused by excess or dysregulation of brown/beige fat tissue. To address the hypothesis, the investigators would like to assess brown fat distribution and activity in this subject.

Completed2 enrollment criteria

Diagnostic Screening Tests and Potential Biomarkers in Mitochondrial Myopathies

Mitochondrial MyopathiesHealthy Controls

The purpose of this study is to develop simple diagnostic screeningtests and investigate potential biomarkers for identifying patients with abnormalities of mitochondrial function, which also can be used as outcome measures in future clinical trials. The study will investigate two submaximal tests: a submaximal handgrip test and a walking test. Furthermore investigators will investigate Acyl-carnitine profiles and GDF-15 levels in patients with mitochondrial myopathy.

Completed8 enrollment criteria

Study of the Metabolism of Pyruvate and Related Problems in Patients With Lactic Acidemia

Mitochondrial MyopathyMELAS Syndrome1 more

OBJECTIVES: I. Study the metabolism of pyruvate and related problems in patients with lactic acidemia. II. Define the nature of the metabolic defect.

Completed2 enrollment criteria
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