Engineered bioactive nanoparticles incorporated biofunctionalized ECM/silk proteins based cardiac patches combined with MSCs for the repair of myocardial infarction: In vitro and in vivo evaluations

The development of cardiac patches by the combination of bioactive nano- and bio-materials with mesenchymal stem cells signifies an auspicious approach for the treatment of cardiac repair in myocardial infarction. In the present investigation, we study about the cardiac function of morphology improved gold nanoparticles combined with extracellular matrix/silk proteins for the cell proliferation and expansion of cardiomyocytes. The physico-chemical and morphological characteristics demonstrated that spherical and homogeneous Au particles are distributed on the matrix porous surface for providing favorable conductivity and biological influences in cardiac repair. The in vitro cell studies of prepared patches have established enhanced cell compatibility and retention of cardiomyocytes survival. The in vivo determinations imply that Au-ESF group decreases infarct size to 65% from 89% in control group. These developed cardiac patches can be highly suitable in the cardiac regeneration and offer new platform in cardiac tissue engineering. [Display omitted] •The development of cardiac material by the combination of bioactive nanomaterials with MSCs•Gold nanoparticles with ECM/SF matrix enhancing cell proliferation and expansion of cardiomyocytes•Prepared cardiac patches are highly suitable for the myocardial infraction therapy.