A Dose-escalating Clinical Trial With KH176
MELASLHON3 moreMitochondrial 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), Leigh's Disease and Leber's Hereditary Optic Neuropathy (LHON). KH176 is a potent intracellular redox modulating agent targeting the reactive oxygen species which are important in the pathogenesis of disorders of mitochondrial oxidative phosphorylation. After demonstrating a favourable safety profile in the pre-clinical testing, the safety, tolerability and pharmacokinetic and pharmacodynamic characteristics of the compound will now be evaluated in healthy male subjects in this trial
Safety, Tolerability, Efficacy of MTP-131 for Treatment of Mitochondrial Disease in Subjects From...
Primary Mitochondrial DiseaseThis 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.
Ketones & Mitochondrial Heteroplasmy
MELAS SyndromeMitochondrial DiseasesThe current study is a prospective evaluation of the ability of ketosis to shift mitochondrial DNA (mtDNA) heteroplasmy in subjects harboring a known mutation in their mtDNA at position 3243 (A>G). Subjects will be given supplemental medium chain triglycerides (MCTs) for a period of 6 months. mtDNA heteroplasmy will be measured 3 months prior to treatment, at treatment initiation, and 6 months after initiation. The primary objective of the current study is to determine if there is a shift in heteroplasmy in patients harboring the 3243 A>G mtDNA mutation to a more favorable (higher wild-type) profile while in a state of ketosis.
EPI-743 for Metabolism or Mitochondrial Disorders
Mitochondrial DiseaseNeurology1 moreBackground: Mitochondria are the parts of cells that help produce energy. Metabolism is the process by which the body uses energy to help cells grow and reproduce. Metabolic and mitochondrial disorders affect the body s ability to produce and store energy. These disorders can cause a wide variety of problems, but most often they affect the muscles and the brain, where energy requirements are high. Treatment is difficult because the exact source of the problem is hard to detect. EPI-743 is a new drug that is based on vitamin E. Tests have shown that it can help improve the function of cells with mitochondrial problems. It may be able to treat people with genetic disorders that affect metabolism and mitochondria. Objectives: - To see if EPI-743 can improve energy production and use in people with mitochondrial or metabolic disorders. Eligibility: - Children between 2 and 11 years of age who have metabolic or mitochondrial problems. Design: Participants will be screened with a physical exam and medical history. Blood and urine samples will be collected. The study will last about 13 months. Participants will have seven 3- to 5-day inpatient study visits about 3 months apart. Participants will take either EPI-743 or a placebo for the first 6 months of the study. After 6 months, there will be a 1-month rest period. Then, those who received EPI-743 in the first 6 months will take the placebo for the next 6 months. Those who had the placebo will take EPI-743. During each inpatient study visit, participants will have a physical exam. A 24-hour urine collection will be obtained. Blood samples will also be taken. Imaging studies and other tests may be performed as directed by the study researchers.
Anesthetic Effects in Mitochondrial Disease
Mitochondrial DiseaseSummary. At the present, the investigators do not have the perfect anesthetic for mitochondrial patients. When possible, consideration should be given to the use of local anesthetics in small amounts. When a general anesthetic is necessary, they each carry significant risks and have been associated with poor outcomes. At present it is not possible to eliminate one group as less safe than others. What is clear is that these patients must be monitored more closely than other patients. The advent of the bispectral index (BIS) monitor may allow us to monitor their depth of anesthesia more closely and thus expose these patients only to the minimum amount of drug necessary to carry out the surgical procedure. Purpose. The investigators hypothesize that specific mitochondrial diseases, in particular those that decrease complex I function, make certain children hypersensitive to volatile anesthetics. These same patients may be at increased risk for adverse outcomes following general anesthesia. The specific aims of this application are: Determine which molecular defects in mitochondrial function lead to alter sensitivity to the VA sevoflurane. Establish the relative safety of sevoflurane in treatment of patients with mitochondrial disease. The investigators plan to monitor patients with mitochondrial disease using expanded measures of cardiovascular stability and measurements of brain electrical activity while slowly inducing general anesthesia. The investigators will use those measurements to limit the amount of anesthetic these patients receive in an attempt to minimize their risk. In addition, the investigators will correlate their sensitivity to the type of mitochondrial defect so that the investigators may be able to predict which patients are likely to have an increased sensitivity.
Heart Rate Variability in Response to Metformin Challenge
FibromyalgiaMitochondrial Diseases3 moreDiseases caused by brain energy supply defects can be innate (fibromyalgia secondary to familial mitochondrial disorders) or acquired (tardive dyskinesia or weight gain associated with prolonged antipsychotic use). Patients with these possible mitochondrial disorders will provide a baseline resting heart rate sample, ingest low-dose metformin (500 mg), and then provide an additional sample 2 hours later.
Trial of Erythrocyte Encapsulated Thymidine Phosphorylase In Mitochondrial Neurogastrointestinal...
Mitochondrial DiseasesMetabolic Disease1 moreThe purpose of this study is to determine the safety, tolerability, action and effectiveness of repeated doses of Erythrocyte Encapsulated Thymidine Phosphorylase (EE-TP) for the treatment of patients with Mitochondrial Neurogastrointestinal Encephalomyopathy (MNGIE). MNGIE is a rare inherited disease that mainly affects the digestive and nervous system and is caused by a defect in the function of an enzyme called thymidine phosphorylase. This loss of function causes certain molecules (thymidine and deoxyuridine) to accumulate in cells which leads to toxic damage to these cells. The disease can be confirmed by detecting variations (mutations) in the thymidine phosphorylase gene (TYMP). Currently there are no specific treatments for patients with MNGIE, whose effectiveness has been shown through clinical trials. The potential treatment for MNGIE offered in this trial is an enzyme replacement therapy, i.e. replacing functional thymidine phosphorylase. This treatment uses the patients own red blood cells in which thymidine phosphorylase is encapsulated to produce EE-TP (the study drug). EE-TP is created using a machine named a Red Cell Loader (RCL) and is then administered back to the patient.
Assessment of Small Fiber Neuropathy in Rare Diseases Using Sudoscan
Small Fiber NeuropathyFabry Disease2 moreSudoscan™ (Impeto Medical, Paris France) uses electrochemical skin conductance as a novel noninvasive method to detect sudomotor dysfunction. Several small studies have recently shown that Sudoscan use in the assessment of small fiber polyneuropathy (in diabetes mellitus) can be performed non-invasively, quickly and effectively. The investigators aim to study the use of Sudoscan in rare disease condition associated with small fiber polyneuropathy.
Mitochondria and Chronic Kidney Disease
Hemodialysis-Induced SymptomMitochondrial DiseasesThe overarching goal of this study is to determine the role of chronic kidney disease and the activation of the kallikrein-kinin system during hemodialysis on the development of mitochondrial dysfunction; the investigators will measure mitochondrial function using the gold standard method, 31-phosphorus magnetic resonance spectroscopy. The investigators will test the hypothesis that endogenous bradykinin promotes mitochondrial dysfunction in patients undergoing hemodialysis. The investigators will first perform a randomized, placebo-controlled, double-blind, cross-over study measuring the effect of Icatibant (HOE-140), a bradykinin B2 receptor blocker, on mitochondrial function.
A Study of Bezafibrate in Mitochondrial Myopathy
Mitochondrial DiseasesThe 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.