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Study of Triheptanoin for the Prevention of Hypoglycemia in Patients With Medium Chain Acyl-CoA Dehydrogenase Deficiency (MCADD)

Sponsor
Jerry Vockley, MD, PhD (Other)
Overall Status
Recruiting
CT.gov ID
NCT06067802
Collaborator
Ultragenyx Pharmaceutical Inc (Industry)
8
Enrollment
1
Location
1
Arm
15.1
Anticipated Duration (Months)
0.5
Patients Per Site Per Month

Study Details

Study Description

Brief Summary

This is a medical research study to test a medication in adult patients with a disease called medium-chain acyl-CoA dehydrogenase deficiency (MCADD). The medication is triheptanoin, which is currently FDA approved for the treatment of Long-Chain Fatty Acid Oxidation Disorders. Previous research suggests that triheptanoin may also be effective in the treatment MCADD. This study will investigate the safety and efficacy (how well it works) of triheptanoin in patients with MCADD.

Condition or Disease Intervention/Treatment Phase
Phase 2

Detailed Description

Participation in the study will require three overnight admissions at the Clinical and Translational Research Center at the UPMC Children's Hospital of Pittsburgh (also called the PCTRC). The total length of the study is 10 weeks.

Subjects will have blood work and an intravenous access line (IV) placed for several blood draws during the visit. Subjects will begin fasting during the admission, which means they may consume only non-caloric fluids (water, unsweetened black coffee or tea, or sugar-free beverages). Bloodwork will be collected during the fast. Following the completion of the fast, the subject will eat a meal and will receive the study drug, triheptanoin. The total time of fasting will be up to 24 hours.

Dosing for this study will begin at 0.2 gm/kg/day up to a dose of 1.0 gm/kg/day. The dose will be increased gradually to avoid gastric upset. The dose should be divided into 3 or 4 daily doses and given with food or liquid. The dose can be decreased if a subject experiences any gastric upset that indicates that they cannot tolerate the higher dose.

Subjects will return two more times (at Weeks 5 and 9) to undergo the overnight admission and 24-hour fasting procedures outlined above. After the Week 9 admission they will no longer take the triheptanoin. Study staff will contact them by phone one week later (Week 10) to make sure they are not experiencing any adverse effects.

All study procedures will be done at no cost to the subjects.

Study Design

Study Type:
Interventional
Anticipated Enrollment :
8 participants
Allocation:
N/A
Intervention Model:
Single Group Assignment
Masking:
None (Open Label)
Primary Purpose:
Treatment
Official Title:
A Phase II, Escalating Dose, Open Label Study to Evaluate the Safety of Triheptanoin for the Prevention of Hypoglycemia in Patients With Medium Chain Acyl-CoA Dehydrogenase Deficiency (MCADD)
Anticipated Study Start Date :
Oct 30, 2023
Anticipated Primary Completion Date :
Dec 31, 2024
Anticipated Study Completion Date :
Feb 1, 2025

Arms and Interventions

Arm Intervention/Treatment
Experimental: Triheptanoin

Open label study

Drug: Triheptanoin
Open-label design with doses of triheptanoin up to 1.0 gm/kg triheptanoin
Other Names:
  • Dojolvi

    		•

    Outcome Measures

    Primary Outcome Measures

    1. Number of participants with treatment related adverse events as assessed by CTCAE v5.0 [10 weeks]

    Secondary Outcome Measures

    1. Normalization of biochemical markers of disease (plasma acylcarnitine) [10 weeks]

      Change in C2 levels, comparing results from the fast before and after triheptanoin is initiated - this will be measured by the number of participants who experience any change; measured in nmol/mL

    2. Normalization of biochemical markers of disease (plasma acylcarnitine) [10 weeks]

      Change in C3 levels, comparing results from the fast before and after triheptanoin is initiated - this will be measured by the number of participants who experience any change; measured in nmol/mL

    3. Normalization of biochemical markers of disease (plasma acylcarnitine) [10 weeks]

      Change in C6 levels, comparing results from the fast before and after triheptanoin is initiated - this will be measured by the number of participants who experience any change; measured in nmol/mL

    4. Normalization of biochemical markers of disease (plasma acylcarnitine) [10 weeks]

      Change in C8 levels, comparing results from the fast before and after triheptanoin is initiated - this will be measured by the number of participants who experience any change; measured in nmol/mL

    5. Normalization of biochemical markers of disease (plasma acylcarnitine) [10 weeks]

      Change in C10 levels, comparing results from the fast before and after triheptanoin is initiated - this will be measured by the number of participants who experience any change; measured in nmol/mL

    6. Normalization of biochemical markers of disease (plasma acylcarnitine) [10 weeks]

      Change in C10:1 ratio levels, comparing results from the fast before and after triheptanoin is initiated - this will be measured by the number of participants who experience any change; measured in nmol/mL

    7. Normalization of biochemical markers of disease (plasma acylcarnitine) [10 weeks]

      Change in C16 levels, comparing results from the fast before and after triheptanoin is initiated - this will be measured by the number of participants who experience any change; measured in nmol/mL

    8. Normalization of biochemical markers of disease (urine acylglycine) [10 weeks]

      Change in urine n-propionylglycine levels, comparing results from the fast before and after triheptanoin is initiated - this will be measured by the number of participants who experience any change; measured in mg/g creatinine

    9. Normalization of biochemical markers of disease (urine acylglycine) [10 weeks]

      Change in urine suberylglycine levels, comparing results from the fast before and after triheptanoin is initiated - this will be measured by the number of participants who experience any change; measured in mg/g creatinine

    10. Normalization of biochemical markers of disease (urine acylglycine) [10 weeks]

      Change in urine n-octanoylglycine levels, comparing results from the fast before and after triheptanoin is initiated - this will be measured by the number of participants who experience any change; measured in mg/g creatinine

    11. Normalization of biochemical markers of disease (urine acylglycine) [10 weeks]

      Change in urine n-hexanoylglycine levels, comparing results from the fast before and after triheptanoin is initiated - this will be measured by the number of participants who experience any change; measured in mg/g creatinine

    12. Normalization of biochemical markers of disease (plasma acylcarnitine) [10 weeks]

      Change in C2 levels, comparing results from the fast before and after triheptanoin is initiated - this will be measured by the actual change from baseline to Week 10 for each participant; measured in nmol/mL

    13. Normalization of biochemical markers of disease (plasma acylcarnitine) [10 weeks]

      Change in C3 levels, comparing results from the fast before and after triheptanoin is initiated - this will be measured by the actual change from baseline to Week 10 for each participant; measured in nmol/mL

    14. Normalization of biochemical markers of disease (plasma acylcarnitine) [10 weeks]

      Change in C6 levels, comparing results from the fast before and after triheptanoin is initiated - this will be measured by the actual change from baseline to Week 10 for each participant; measured in nmol/mL

    15. Normalization of biochemical markers of disease (plasma acylcarnitine) [10 weeks]

      Change in C8 levels, comparing results from the fast before and after triheptanoin is initiated - this will be measured by the actual change from baseline to Week 10 for each participant; measured in nmol/mL

    16. Normalization of biochemical markers of disease (plasma acylcarnitine) [10 weeks]

      Change in C10 levels, comparing results from the fast before and after triheptanoin is initiated - this will be measured by the actual change from baseline to Week 10 for each participant; measured in nmol/mL

    17. Normalization of biochemical markers of disease (plasma acylcarnitine) [10 weeks]

      Change in C10:1 ratio levels, comparing results from the fast before and after triheptanoin is initiated - this will be measured by the actual change from baseline to Week 10 for each participant; measured in nmol/mL

    18. Normalization of biochemical markers of disease (plasma acylcarnitine) [10 weeks]

      Change in C16 levels, comparing results from the fast before and after triheptanoin is initiated - this will be measured by the actual change from baseline to Week 10 for each participant; measured in nmol/mL

    19. Normalization of biochemical markers of disease (urine acylglycine) [10 weeks]

      Change in urine n-propionylglycine levels, comparing results from the fast before and after triheptanoin is initiated - this will be measured by the actual change from baseline to Week 10 for each participant; measured in mg/g creatinine

    20. Normalization of biochemical markers of disease (urine acylglycine) [10 weeks]

      Change in urine suberylglycine levels, comparing results from the fast before and after triheptanoin is initiated - this will be measured by the actual change from baseline to Week 10 for each participant; measured in mg/g creatinine

    21. Normalization of biochemical markers of disease (urine acylglycine) [10 weeks]

      Change in urine n-octanoylglycine levels, comparing results from the fast before and after triheptanoin is initiated - this will be measured by the actual change from baseline to Week 10 for each participant; measured in mg/g creatinine

    22. Normalization of biochemical markers of disease (urine acylglycine) [10 weeks]

      Change in urine n-hexanoylglycine levels, comparing results from the fast before and after triheptanoin is initiated - this will be measured by the actual change from baseline to Week 10 for each participant; measured in mg/g creatinine

    Eligibility Criteria

    Criteria

    Ages Eligible for Study:
    16 Years and Older
    Sexes Eligible for Study:
    All
    Accepts Healthy Volunteers:
    No
    Inclusion Criteria:

    • A diagnosis of MCAD deficiency with molecular confirmation.

    • Age criteria age ≥ 16 years

    • Able to perform and comply with study activities including overnight admission to the research unit at UPMC Children's Hospital Pittsburgh, placement of an IV catheter, and all blood draws.

    • Negative pregnancy test for all female subjects of child bearing age. Females of childbearning potential must agree to use a highly effective method of contraception, and males must agree not to father a child or donate sperm. True abstinence for the duration of the study will also be accepted.

    • Signed informed consent for subjects ≥ 18 years, or assent by subjects age 16-17 years with parental consent for underaged subjects.

    Exclusion Criteria:

    • Use of any investigational drug within 30 days of screening.

    • Active infection (viral or bacterial) or any other intercurrent condition as reported by the subject or noted on physical exam at screening.

    • Evidence of liver disease as defined by elevations of AST or ALT> 1.5x ULN at screening

    • Any clinical or laboratory abnormality or medical condition that, at the discretion of the investigator, may put the subject at increased risk by participating in this study.

    • Pregnant, planning to become pregnant, breastfeeding or lactating females.

    • Diagnosis of pancreatic insufficiency or concomitant use of a pancreatic lipase inhibitor (e.g. Orlistat) which can interfere with absorption of triheptanoin

    • Subjects with type 1 or type 2 diabetes, or who take medications as part of their routine care that can cause hypoglycemia

    Contacts and Locations

    Locations

    Site City State Country Postal Code
    1 UPMC Children's Hospital of Pittsburgh Pittsburgh Pennsylvania United States 15224

    Sponsors and Collaborators

    • Jerry Vockley, MD, PhD
    • Ultragenyx Pharmaceutical Inc

    Investigators

    • Principal Investigator: Gerard Vockley, MD, PhD, UPMC Children's Hospital of Pittsburgh

    Study Documents (Full-Text)

    None provided.

    More Information

    Publications

    None provided.
    Responsible Party:
    Jerry Vockley, MD, PhD, Chief, Division of Genetic and Genomic Medicine, University of Pittsburgh
    ClinicalTrials.gov Identifier:
    NCT06067802
    Other Study ID Numbers:
    • STUDY23040121
    • UX007-IST237
    First Posted:
    Oct 5, 2023
    Last Update Posted:
    Oct 5, 2023
    Last Verified:
    Sep 1, 2023
    Individual Participant Data (IPD) Sharing Statement:
    No
    Plan to Share IPD:
    No
    Studies a U.S. FDA-regulated Drug Product:
    Yes
    Studies a U.S. FDA-regulated Device Product:
    No
    Keywords provided by Jerry Vockley, MD, PhD, Chief, Division of Genetic and Genomic Medicine, University of Pittsburgh
    Medium-chain Acyl-CoA Dehydrogenase Deficiency
    Additional relevant MeSH terms:
    Lipid Metabolism, Inborn Errors
    Hypoglycemia

    Study Results

    No Results Posted as of Oct 5, 2023