New Capricor Data Reports 100 Percent Survival in Critical COVID-19 Patients Treated with CAP-1002 - Seite 2
"As the global medical community continues to come together in its battle against COVID-19, the results of our initial compassionate care cases are extremely promising and what we had anticipated. We look forward to continuing to treat additional patients under our recently approved expanded access program Investigational New Drug application,” said Dr. Linda Marbán, Ph.D., CEO, Capricor. “CAP-1002 is an easy-to-deliver intravenous therapy that has been administered successfully to over 150 patients to date. Given its novel mechanism of action, it could be a potential game-changer in helping countless COVID-19 patients.”
Capricor is also in late-stage clinical development of CAP-1002 for Duchenne muscular dystrophy (DMD). In DMD, the lack of dystrophin produces abnormal inflammatory responses, which are responsible for much of the damage to skeletal and cardiac muscle. The Company has previously announced that top-line results of HOPE-2, a randomized, placebo-controlled study, will be released by mid-May 2020.
About Capricor Therapeutics
Capricor Therapeutics, Inc. (NASDAQ: CAPR) is a clinical-stage biotechnology company focused on the discovery, development and commercialization of first-in-class biological therapeutics for the treatment and prevention of diseases. Capricor’s lead candidate, CAP-1002, is an allogeneic cell therapy that is currently in clinical development for the treatment of Duchenne muscular dystrophy. Capricor is also investigating the field of extracellular vesicles and exploring the potential of exosome-based candidates to treat or prevent a variety of disorders. For more information, visit www.capricor.com and follow the Company on Facebook, Instagram and Twitter.
About CAP-1002
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CAP-1002 consists of allogeneic “off-the-shelf” cardiosphere-derived cells, or CDCs, a type of cardiac cell therapy that has been shown in pre-clinical and clinical studies to exert potent immunomodulatory activity. It is being investigated for its potential to modify the immune system’s activity to encourage cellular regeneration. The cells function by releasing exosomes that are taken up largely by macrophages and T-cells and begin a cycle of repair. CDCs have been the subject of over 100 peer-reviewed scientific publications and administered to approximately 150 human subjects across several clinical trials.