Epicardial transplantation of antioxidant polyurethane scaffold based human amniotic epithelial stem cell patch for myocardial infarction treatment

Myocardial infarction (MI) is a leading cause of death globally. Stem cell therapy is considered a potential strategy for MI treatment. Transplantation of classic stem cells including embryonic, induced pluripotent and cardiac stem cells exhibited certain repairing effect on MI via supplementing cardiomyocytes, however, their clinical applications were blocked by problems of cell survival, differentiation, functional activity and also biosafety and ethical concerns. Here, we introduced human amniotic epithelial stem cells (hAESCs) featured with immunomodulatory activities, immune-privilege and biosafety, for constructing a stem cell cardiac patch based on porous antioxidant polyurethane (PUR), which demonstrated decent hAESCs compatibility. In rats, the administration of PUR-hAESC patch significantly reduced fibrosis and facilitated vascularization in myocardium after MI and consequently improved cardiac remodeling and function. Mechanistically, the patch provides a beneficial microenvironment for cardiac repair by facilitating a desirable immune response, paracrine modulation and limited oxidative milieu. Our findings may provide a potential therapeutic strategy for MI. Myocardial infarction is a leading cause of death globally. Stem cell therapy is considered a potential treatment. Here, the authors propose an antioxidant polyurethane-based cardiac patch with stem cells that provides antioxidation, immune remodeling and paracrine modulation for myocardial repair.