Active clinical trials for "Mitochondrial Diseases"

Mitochondrial DNA (mtDNA) depletion syndromes (MDS) are a genetically and clinically heterogeneous group of autosomal recessive disorders that are characterized by a severe reduction in mtDNA content leading to impaired energy production in affected tissues and organs. MDS are due to defects in mtDNA maintenance caused by mutations in nuclear genes that function in either mitochondrial nucleotide synthesis. MDS are phenotypically heterogeneous and usually classified as myopathic, encephalomyopathic, hepatocerebral or neurogastrointestinal. No efficacious therapy is available for any of these disorders. Affected individuals should have a comprehensive evaluation to assess the degree of involvement of different systems. Treatment is directed mainly toward providing symptomatic management. No treatment for MDS. Clinical trials studies and in vitro/in vivo research studies showed that the enhancement of the salvage pathway by increasing the availability of deoxyribonucleosides needed for each specific genetic defect prevents mtDNA depletion. Early recognition and immediate therapy to restore mitochondrial function could potentially improve clinical course. Confirming the benefit of deoxynucleosides as a safe and potentially efficacious therapy, will lead to the availability of the first specific and effective treatment for Mitochondria Depletion Disorders. In this phase II Trial a mix of Deoxynucleosides Pyrimidine (Deoxycytidine dC and Deoxythymidine dT) will be used as early treatment of MDS. The dose used has been already used in other clinical trials, and appears to effective and well-tolerated. The subjects included are children (0-18Y), with positive MDS diagnosis and express mutations in one of the following genes: POLG, C10orf2, RRM2B, MPV17, SUCLA2, SUCLG1, FBXL4. Subjects with MDS expressing neurological phenotypes dysfunction.

Primary Mitochondrial diseases are a clinically and genetically heterogeneous group of disorders caused by mutations in genes encoded by nuclear Deoxyribonucleic Acid (DNA) or by mutations and/or deletions in the mitochondrial DNA (mtDNA). While some mitochondrial disorders only affect a single organ (e.g., the eye in Leber hereditary optic neuropathy [LHON]), many involve multiple organs. Mitochondrial disorders may present at any age and a frequent feature is the increasing number of organs involved in the course of the disease. Minovia Therapeutics Ltd. ("Minovia") is a biotech company developing novel therapeutics based on its mitochondrial augmentation technology (MAT). MNV-201 is a cell therapy produced by MAT that consists of the participant's autologous CD34+ hematopoietic stem and progenitor cells (HSPCs) enriched with allogeneic placental-derived mitochondria, manufactured in Minovia's GMP facility.

N-Acetylcysteine (NAC), an anti-oxidant, will be studied to investigate the effects on brain glutathione levels, cognitive skills, motor skills, and quality of life. A group of 18 participants will take either 1800, 3600 or 5400 mg per day of N-acetylcysteine (NAC) for 3 months in this dose escalation study. The investigators want to determine first if the 3600 mg dose per day is safe and might provide some efficacy. If the 3600 mg dose is safe, then additional participants will be treated with 5400 mg per day of NAC, for up to a total of 18 participants. If the 3600 mg per day dose is unsafe, then participants will be treated with the 1800 mg per day dose. Data from this pilot study will be used to determine the most safe and effective dose of NAC for a future clinical trial.

The primary objective of the FALCON study is to evaluate the efficacy of KL1333 on selected disease manifestations of primary mitochondrial disease (PMD) following 48 weeks of treatment. This objective involves evaluating the efficacy of KL1333 versus placebo on fatigue symptoms and impacts on daily living as well as on functional lower extremity strength and endurance. Additionally, the study evaluates the safety and tolerability of KL1333.

The goal of this clinical trial is to learn about the treatment effects of the investigational new drug OMT-28 in patients with Primary Mitochondrial Disease. The main question[s] it aims to answer are: Is OMT-28 safe and well tolerated in this patient population? Does OMT-28 reduce Growth Differentiation Factor 15 (GDF-15) and other relevant blood markers of mitochondrial dysfunction and inflammation? Does OMT-28 improve symptoms of the disease, e.g. fatigue or exercise intolerance? Participants will be asked to participate in 6 study visits at an experienced clinical center, including physical examinations and exercise tests, and take the study medication regularly once per day according to the protocol. Researchers will compare for every participant the results after 3 months and 6 months of treatment with a preceding 3 month period of standard care treatment to investigate the effects of OMT-28 on clinical parameters and a number of blood parameters.

This a randomized placebo controlled, double-blind phase II study to explore the pharmacokinetics, safety and efficacy of sonlicromanol in children (from birth to 17 years) with genetically confirmed mitochondrial disease of which the gene defect is known to decrease one or more oxidative phosphorylation system enzymes and who suffer from motor symptoms ("KHENERGYC").

Mitochondrial diseases (MDs) are the commonest group of inborn errors resulting from primary dysfunction of mitochondrial respiratory chain (MRC). High phenolics-containing extra-virgin olive oil (EVOO) can be one of the potential dietary supplements for the treatment of MD. Previous reports demonstrated that phenolics including oleuropein, oleocanthal, hydroxytyrosol and tyrosol found in EVOO have strong antioxidant properties against the oxidative stress in brain tissue and showed a protective effect on mitochondria by restoring mitochondrial enzymatic activities. This proposed study is an open-label pilot/ feasibility clinical trial using hydroxytyrosol (HT) as dietary supplements in a cohort of 12 MD patients recruited from the Hong Kong Children's Hospital (HKCH). The objective is to explore the longitudinal effect of receiving hydroxytyrosol (HT) as dietary supplements over a 12-month period and the change on a 6-month period after withdrawal. The applicability of the outcome measures will be evaluated in the current trial for future clinical studies and obtain relevant data for the next phase of the clinical trial on hydroxytyrosol (HT) efficacy. Besides, the tolerability of hydroxytyrosol (HT) in MD patients will be evaluated. The primary outcome measure is the functional assessment of the patient's clinical outcomes by International Paediatric Mitochondrial Disease Score (IPMDS). Secondary outcome measures included the measurement of biochemical and radiological parameters. Besides, tolerability and quality of life of the subjects will be determined. Relevant data including the feasibility of subject recruitment, withdrawal rate, feasibility of data collection of outcome measures, longitudinal effect of hydroxytyrosol (HT) on the outcome measures in the trial can be collected and analysed in this pilot study providing important information for the future clinical trials. The ultimate goal is to develop effective therapies to lower mortality, improve the clinical outcomes and quality of life in MD patients.

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.

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).

The primary objective of this study is to assess the safety of vatiquinone in participants with inherited mitochondrial disease who had prior exposure to vatiquinone in a PTC/BioElectron sponsored (previously Edison) clinical study or treatment plan. The study will continue until vatiquinone becomes commercially available or the program is terminated.