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Results from rhesus macaques provide solid ground for a first-in-human investigation of heart repair with stem cell-derived engineered heart muscle. The results have been published in Nature. Implantation of a tissue engineered heart patch, called engineered heart muscle EHM , is developed to repair the failing heart.
The EHM patch is a lab-grown heart muscle made up of induced pluripotent stem cell-derived heart cells embedded in a collagen hydrogel. The foundation for the translation into clinical testing was established by simulation of the clinical treatment in rhesus macaques. The EHM patch is currently the only technology that allows safe and efficacious delivery with long-term retention of cardiomyocytes in the heart. An interdisciplinary team led by Professor Wolfram-Hubertus Zimmermann, director of the Department of Pharmacology and Toxicology at the University Medical Center UMG and Scientific Director of the preclinical and clinical heart patch studies, together with colleagues from the UMG and UKSH, has successfully implanted the so-called "heart patch" in patients with heart failure for the first time.
The approval of this clinical trial by the responsible regulatory authority, the Paul-Ehrlich-Institute, was preceded by the documentation of safety and efficacy of the heart patch in rhesus macaques. The simulation of the clinical application in rhesus macaques at the German Primate Center—Leibniz Institute for Primate Research DPZ was essential to gather compelling data to support clinical translation.
The researchers were able to show that implanted heart patches, consisting of up to million cells, led to an improvement in heart function through re-muscularization building of new heart muscle. Imaging techniques and tissue analysis confirmed that the implanted heart muscle cells are retained under concomitant immune suppression and strengthened the heart's pumping function.
