Heart disease is the main cause of death worldwide. Because death of the myocardium is
irreversible, it remains a significant clinical challenge to rescue myocardial deficiency …

Abstract Poly (glycerol sebacate)(PGS) continues to attract attention for biomedical
applications owing to its favorable combination of properties. Conventionally polymerized by …

Myocardial infarction (MI) is still the leading cause of mortality worldwide. The success of cell-
based therapies and tissue engineering strategies for treatment of injured myocardium have …

Polypyrrole is an example of inherently electrically conductive polymer that is employed in
the biomedical arena because of its low cost, excellent electroconductive properties, and …

Myocardial infarction (MI) is one of the fatal diseases in humans. Its incidence is constantly
increasing annually all over the world. The problem is accompanied by the limited …

Implantable cardiac patches and injectable hydrogels are among the most promising
therapies for cardiac tissue regeneration following myocardial infarction. Incorporating …

Myocardial infarction (MI) is one of the leading causes of death and disability. Recently
developed cardiac patches provide mechanical support and additional conductive paths to …

Medical patches have been widely explored and applied in various medical fields,
especially in wound healing, tissue engineering, and other biomedical areas. Benefiting …

Over the last few years, organic bioelectronics has experienced an exponential growth with
applications encompassing platforms for tissue engineering, drug delivery systems …

A biomaterial system incorporating nanocellulose, poly (glycerol sebacate), and polypyrrole
is introduced for the treatment of myocardial infarction. Direct ink writing of the …