Active clinical trials for "Mitochondrial Diseases"

The objective of the study is to determine the safety and tolerability of RG2133 in patients with Mitochondrial Disease.

Treatment of Pediatric Subjects with Pearson syndrome

A long-term extension study to assess the safety, tolerability and efficacy of cysteamine bitartrate delayed-release capsules (RP103) in children with inherited mitochondrial diseases who previously enrolled into study RP103-MITO-001 (NCT02023866).

Investigators are recruiting adults (men and women, ages 18 to 65 years, inclusive) with a confirmed genetic diagnosis of mitochondrial disease. Investigators are also recruiting both obese and normal-weight healthy volunteers (men and women, ages 18 to 65 years, inclusive) without a family history of mitochondrial disease to compare to affected individuals. The study involves non-invasive MRI methods and glucose tests to focus on the relationship between mitochondrial disease, obesity, and the risk of diabetes. All study visit procedures will be completed within 2 days, which includes an overnight stay at the Hospital of the University of Pennsylvania. There are no study medications or sedations, and participants will be continually monitored during minimally-invasive procedures (e.g., blood draws). All participants will be able to receive compensation. Furthermore, it may be possible to provide reimbursement for travel, lodging, and meals for individuals with mitochondrial disease. Investigators hope that this research will contribute to the current knowledge of mitochondrial disease and that it will improve diagnostic and treatment approaches.

The MiSBIE study collects biological, behavioral, psychosocial, neuropsychological, and brain imaging data in participants with either: normal mitochondrial function, individuals with the m.3243A>G mitochondrial DNA (mtDNA) mutation, and individuals a single large-scale mtDNA deletion. These defects induce mitochondrial allostatic load (MAL). The 2-day protocol, plus home-based data collection, will provide a comprehensive assessment of the multi-systemic dysregulation associated with MAL or mitochondrial dysfunction, and the link to physical and mental health-related symptoms. Aim 1: Determine the influence of MAL on systemic AL biomarkers. Aim 2: Establish the influence of MAL on stress reactivity profiles. Aim 3. Examine the association between MAL and psychological functioning.

The purpose of this First In Human study is to investigate the safety and tolerability of KL1333 after a single oral dose and to investigate the pharmacokinetic characteristics of KL1333 after a single oral dose.

Mitochondrial diseases occur due to inadequate energy production. In addition, nitric oxide (NO) deficiency occurs in mitochondrial diseases. The endothelial layer of blood vessels functions in maintaining blood vessels patency through producing NO which relaxes vascular smooth muscles and therefore maintains the patency of blood vessels and adequate blood perfusion. In mitochondrial diseases, endothelial cells fail to perform their normal function in maintaining the patency of blood vessels (endothelial dysfunction) because of the inability to produce enough NO. Endothelial dysfunction results in decreased blood perfusion in different organs which can contribute to the complications seen in mitochondrial diseases. The amino acids arginine and citrulline act as NO precursors and can increase NO production. In this study we hypothesize that due to the inability to produce enough NO patients with mitochondrial diseases have endothelial dysfunction that will improve after arginine or citrulline supplementation. The investigators will assess endothelial function using peripheral arterial tonometry before and after arginine or citrulline supplementation. The investigators expect that arginine and citrulline supplementation will improve endothelium function. This will support the therapeutic use of arginine and citrulline in mitochondrial diseases.

Slow movement of patients guts is referred to as intestinal dysmotility, and is increasingly recognised as a debilitating manifestation of mitochondrial disease both in adults and children. To date, symptoms of slow gut movements have been managed with laxatives and drugs that increase movement of the guts with variable results. A low residue diet is a form of low fibre diet (<10g fibre per day) that is used to minimise symptoms of poor movement of the guts. This reduces fecal volume and bulk, and hence gut workload, ensuring limited bowel activity and colonic rest. It has been shown to be well accepted in other conditions associated with slow gut movements. However, its role in patients with mitochondrial disease is unknown. The investigators are particularly interested in: Does a low residue diet (low fibre) cause a change in the number of stools per week and stool consistency? Is a low residue diet tolerated well and easy to comply with? Does a low residue diet reduce gut symptoms of abdominal pain, bloating, and constipation? Does a low residue diet improve quality of life and disease burden? Does a low residue diet affect the bacteria in the gut? Can we prove by X-ray that movement of food through the gut is slowed in patients with mitochondrial disease, and whether a low residue diet alters the speed of movement of food through the gut? Can a low residue diet change patients physical activity levels? Does a low reside diet change dietary patterns and food intake? Does a low residue diet alter anthropometrics, such as weight, body mass index and waist to hit ratio? Can a low residue diet improve kidney and liver function and lipid profile in blood samples? The investigators hope that by looking at these areas that a low residue diet may be able to improve patients slow gut movements, health, quality of life and disease burden.

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.

A Phase I, Open-label, Fixed-sequence, Crossover, Drug-drug Interaction Study to Investigate the Inhibition Potential of KL1333 on CYP1A2, CYP2B6, CYP2C8, CYP2C9, CYP2C19, CYP2D6, and CYP3A4 in Healthy Subjects