Title
Use of (-)-Epicatechin in the Treatment of Becker Muscular Dystrophy (Pilot Study)
An Open-label Pilot Study of Purified Tea-derived Epicatechin to Improve Mitochondrial Function, Strength and Skeletal Muscle Exercise Response in Becker Muscular Dystrophy.
Phase
Phase 1/Phase 2Lead Sponsor
University of California, DavisStudy Type
InterventionalStatus
Completed Results PostedIndication/Condition
Becker Muscular DystrophyIntervention/Treatment
catechin ...Study Participants
7(-)-Epicatechin will be evaluated for the treatment of progressive muscle loss and impaired skeletal muscle function in Becker Muscular Dystrophy (BMD) patients.
This is a proof-of-concept phase 1/2a pilot and endpoint development study that is designed to provide initial evidence of biological activity of (-)-epicatechin. Primary endpoints include initial assessment of tissue-specific evidence of efficacy from muscle biopsy samples. Secondary endpoints include measures of strength and physical function, and safety and adverse event data. Pilot endpoints include assessment of mRNA and miRNA peripheral blood profiles and validation of non-invasive near-infrared spectroscopy (NIRS) muscle perfusion studies during exercise and a recumbent cycle exercise test that may be employed as endpoints in future clinical trials.
This single center open-label pilot study will enroll 10 adults with genetically-confirmed Becker muscular dystrophy, who will receive the purified nutritional extract (-)-epicatechin 100mg/day orally for 8 weeks. After screening visits, participants will be enrolled in the study if they meet all inclusion criteria. They will be evaluated at baseline and at screening, day 1, and weeks 1, 2, 4 and 8.
purified nutritional extract (-)-epicatechin 100mg/day orally for 8 weeks.
Purified nutritional extract (-)-epicatechin 100mg/day orally for 8 weeks.
Inclusion Criteria: Male Age 18 years to 60 years Average to low daily physical activity Ability to ambulate for 75 meters without assistive devices Diagnosis of BMD confirmed by at least one the following: Dystrophin immunofluorescence and/or immunoblot showing partial dystrophin deficiency, and clinical picture consistent with typical BMD, or Gene deletions test positive (missing one or more exons) of the dystrophin gene, where reading frame can be predicted as 'in-frame', and clinical picture consistent with typical BMD, or Complete dystrophin gene sequencing showing an alteration (point mutation, duplication, or other mutation resulting in a stop codon mutation) that can be definitely associated with BMD, with a typical clinical picture of BMD, or Positive family history of BMD confirmed by one of the criteria listed above in a sibling or maternal uncle, and clinical picture typical of BMD. Nutritional, herbal and antioxidant supplements taken with the intent of maintaining or improving skeletal muscle strength or functional mobility have been discontinued at least 2 weeks prior to screening (daily multivitamin use is acceptable). Hematology profile within normal range Baseline laboratory safety chemistry profile within normal range No plan to change exercise regimen during study participation Exclusion Criteria: Currently enrolled in another treatment clinical trial. History of significant concomitant illness or significant impairment of renal or hepatic function. Use of regular daily aspirin or other medication with antiplatelet effects within 3 weeks of first dose of study medication. Regular participation in vigorous exercise. Symptomatic heart failure with cardiac ejection fraction <25%
| Event Type | Organ System | Event Term | Treatment With Epicatechin |
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Structure associated indicators including utrophin will be assessed by Western using relative band intensities of the pre-treatment and post-treatment specimens with digitally quantified using ImageJ software).
Regulators of muscle growth and regeneration including myostatin will be assessed by Western using relative band intensities of the pre-treatment and post-treatment specimens with digitally quantified using ImageJ software).
Modulators of skeletal muscle regeneration by Western will include myogenin will be assessed using relative band intensities of the pre-treatment and post-treatment specimens with digitally quantified using ImageJ software).
Modulators of skeletal muscle regeneration My5 will be assessed by Western using relative band intensities of the pre-treatment and post-treatment specimens with digitally quantified using ImageJ software).
Modulators of skeletal muscle regeneration MyoD will be assessed by Western using relative band intensities of the pre-treatment and post-treatment specimens with digitally quantified using ImageJ software).
Modulators of skeletal muscle regeneration MEF2a will be assessed by Western using relative band intensities of the pre-treatment and post-treatment specimens with digitally quantified using ImageJ software).
Structure associated indicators including dysferlin will be assessed by Western using relative band intensities of the pre-treatment and post-treatment specimens with digitally quantified using ImageJ software).
Western blot measurement of the transcriptional coactivator gene PGC1alpha involved in mitochondrial biogenesis will be assessed using relative band intensities of the pre-treatment (Baseline) and post-treatment (8 Weeks) specimens with digitally quantified using ImageJ software.
Western blot measurement of AMPK will be assessed using relative band intensities of the pre-treatment and post-treatment specimens with digitally quantified using ImageJ software).
Western blot measurement of LKB1 will be assessed using relative band intensities of the pre-treatment and post-treatment specimens with digitally quantified using ImageJ software) .
Western blot measurement of Mitofillin will be assessed using relative band intensities of the pre-treatment and post-treatment specimens with digitally quantified using ImageJ software.
Regulators of muscle growth and regeneration including follistatin will be assessed by Western using relative band intensities of the pre-treatment and post-treatment specimens with digitally quantified using ImageJ software).
Muscle function will be assessed by measuring the 6-minute walk distance
Muscle burst function will be assessed by time function tests.
Elbow flexion will be assessed using an isokinetic dynamometer.
Pharmacokinetics sequentially after dosing will be measured.
Standard safety monitoring of plasma hematologic, hepatologic, renal and metabolic parameters will be assessed. Abnormal will be defined as values outside of typical range for patients with Becker Muscular Dystrophy.
Knee extension will be assessed using an isokinetic dynamometer.
