Injectable hydrogels which mimic the physicochemical and electromechanical properties of
cardiac tissue is advantageous for cardiac tissue engineering. Here, a newly-developed in …

Alginate based hybrid copolymer hydrogels with unidirectional pore morphology were
prepared to achieve synergistic biological performance for cardiac tissue engineering …

Cardiac tissue engineering is a promising strategy to prevent heart failure. However, several
issues remain unsolved, including efficient electrical coupling and incorporating factors to …

The development of advanced biomaterials is a crucial step to enhance the efficacy of tissue
engineering strategies for treatment of myocardial infarction. Specific characteristics of …

Despite recent major advances including reprogramming and directed cardiac differentiation
of human cells, therapeutic application of in vitro engineered myocardial tissue is still not …

Cardiac tissue engineering is an emerging approach for cardiac regeneration utilizing the
inherent healing responses elicited by the surviving heart using biomaterial templates. In …

Maintaining the mechanical properties of biofunctional hydrogels of natural resources for
tissue engineering and biomedical applications for an intended period of duration is a …

Abstract Herein, gold/silica (Au/SiO 2) hybrid nanoparticles (NPs) were incorporated into the
gelatin methacrylate (GelMA) matrix to construct mechanically strong and electrically …

Injectable biodegradable hybrid hydrogels were designed and developed based on
thiolated collagen (Col-SH) and multiple acrylate containing oligo (acryloyl carbonate)-b …

In light of the limited efficacy of current treatments for cardiac regeneration, tissue
engineering approaches have been explored for their potential to provide mechanical …