View clinical trials related to Propionic Acidemia.
Filter by:The JUMP (Journey to Understand MMA and PA) Study is being conducted by HemoShear Therapeutics and AllStripes, a rare disease online research platform. JUMP is designed to accelerate understanding of the natural course of methylmalonic acidemia (MMA) and propionic acidemia (PA) disease and treatment for families, researchers, clinicians and industry. The study will collect and provide patient medical record information from multiple institutions for families to access in one place at no cost. AllStripes will remove identifying information like name and address from these medical records and aggregate this data for the HemoShear team to better understand the medical experience and progression of MMA and PA over time. In addition, academic researchers, healthcare practitioners and patient advocacy groups can apply to use the collective patient community data to answer specific research questions at no cost. HemoShear is collecting natural history data on MMA and PA because the company needs insight into the real-world experience of many patients to better understand the disease and be able to scientifically demonstrate whether the potential new treatment they are developing is effective in improving outcomes. This natural history study will include retrospective and prospective components. The retrospective component will consist of data abstracted from primarily electronic health records (eHR) and some paper records. The prospective component will include ongoing collection of medical records from enrolled participants, and participants may opt in to complete health-related questionnaires and an optional genetic testing sub-study. After signing informed consent, participants or their legal guardians will grant permission to AllStripes to collect their health records for data abstraction. Participants may opt into an optional no cost genetic testing sub-study. The JUMP (Journey to Understand MMA and PA) sub-study will help assess whether the genetic variant of the affected person may relate to disease severity and treatment response. Getting genetic testing will enable participants to understand the genetic mutation that causes their type of methylmalonic acidemia (MMA) or propionic acidemia (PA). Knowing the genetic mutations (whether from the MMUT, MMAA or MMAB gene or PCCA or PCCB) can help the impacted person, their caregivers and healthcare professionals understand the potential course of disease and select approaches to better manage the disease. The additional information will enable HemoShear and AllStripes to understand whether different genetic variants impact the disease journey and outcomes. A separate informed consent will be obtained for participating in the sub-study.
The purpose of this study is to assess the safety, tolerability, PK and PD of BBP-671 in healthy volunteers and patients with Propionic Acidemia or Methylmalonic Acidemia.
This is an interventional study to assess the safety, PK, and efficacy of HST5040 in 12 subjects - 6 with Methylmalonic Acidemia (MMA) and 6 with Propionic Acidemia (PA). The study consists of 3 parts: - Part A: Open-label, within-subject, dose escalation study in PA and MMA subjects ≥ 2 years old to identify a safe and pharmacologically active (optimal) dose of HST5040 for use in Part B. Subjects will continue in a Part A open-label extension until all subjects complete Part A and the optimal dose of HST5040 is identified for use in Part B. - Part B: 6-month, randomized, double-blind, placebo-controlled, 2-period crossover in the same subjects from Part A to evaluate safety and efficacy of the optimal dose of HST5040 in addition to standard of care (SoC). - Part C: open-label long-term extension study in PA and MMA subjects ≥ 2 years old (N = approximately 12, 6 each) to evaluate the long-term safety and efficacy of the optimal dose of HST5040. This study will determine whether HST5040 can improve levels of disease-associated toxins that accumulate in patients with PA and MMA.
Background: Very few drugs exist that treat hyperammonemia, specifically PA and MMA. Diet restrictions and alternate pathway agents are the current primary treatments, but they frequently fail to prohibit brain damage. Orthotopic liver transplantation cures the hyperammonemia of urea cycle disorders, but organ availability is limited and the procedure is highly invasive and requires life-long immunosuppression. A drug that could repair or stimulate a dysfunctional urea cycle such as this would have several advantages over current therapy. A drug called N-carbamyl-L-glutamate, Carglumic acid (NCG or Carbaglu)has recently been found to be virtually curative of another urea cycle defect called NAGS deficiency. In this disorder, treatment with NCG alone normalizes ureagenesis, blood ammonia and glutamine levels, allows normal protein tolerance and restores health. Knowledge from this study is being applied to acquired hyperammonemia, specifically in patients with propionic PA and MMA, to try and improve neurodevelopmental outcomes by improving the hyperammonemia. Aims: The overall objective of this project is to determine whether treatment of acute hyperammonemia with Carglumic acid in propionic acidemia (PA), methylmalonic acidemia (MMA) changes the long-term outcome of disease and to determine if it is effective in restoring urine ammonia levels to normal levels.