The development of advanced nano-mediated biological macromolecular (PEGylated Chitosan) hydrogel materials is a vital approach to enhance the efficiency of cardiac tissue applications for treatment of cardiac tissue repair. Definite properties of PEG and chitosan hydrogel matrixes including swelling, mechanical stability and porosity need to be further improved with effective and non-toxic nanoparticles to promote the cell adhesion and organization of cardiac cells. In the current study, we fabricated engineered spherical TiO2 nanoparticles into the biologically active macromolecular (PEG/CTS) hydrogel matrixes with enhanced physico-chemical and biological properties. The morphological improved spherical TiO2 NPs have been highly dispersed in the porous hydrogel structure and effectively promoted young modulus and swelling properties and also exhibited favorable cell adhesion and organization with the cardiomyocytes cells. The stained fluorescence images of TiO2-PEG/CTS hydrogels on the cardiomyocytes cells show the excellent cell-hydrogel matrix interactions comparable to the PEG/CTS hydrogel in the absence of TiO2 NPs. Thus, the investigation results of the present study clearly suggested that efficient cardiac patches with superior bioactive and mechanical properties for cardiac tissue repair.
Keywords: Cardiac repair; Nanoparticles; PEGylated chitosan.
Copyright © 2018. Published by Elsevier B.V.