Small diameter vascular grafts are frequently used in the treatment of cardiovascular
diseases. The aim of this study is to design electrospun telmisartan (TEL)-loaded …

Electrospun hybrid nanofibers prepared using combinations of natural and synthetic
polymers have been widely investigated in cardiovascular tissue engineering. In this study …

The present work details the fabrication of electrospun tubular scaffolds based on the
biocompatible and unexploited blend of gelatin and polytrimethylene carbonate (PTMC) as …

Scaffolds for cardiac patch application must meet stringent requirements such as
biocompatibility, biodegradability, and facilitate vascularization in the engineered tissue …

In the active field of vascular graft research, in situ vascular tissue engineering is a novel
concept. This approach aims to use biodegradable synthetic materials. After implantation …

Recently, natural polymers are frequently comingled with synthetic polymers either by
physical or chemical modification to prepare numerous tissue-engineered graft with …

In this study, a heparin-conjugated poly (ε-caprolactone) electrospun fiber was constructed
to develop a functional scaffold for controlled release of vascular endothelial growth factors …

Many synthetic scaffolds have been used as vascular substitutes for clinical use. However,
many of these scaffolds may not show suitable properties when they are exposed to …

Hierarchically designed tubular scaffolds with bi-layer and multi-layer structures are
expected to mimic native vessels in its structural geometry. A new approach for the …

For blood vessel tissue engineering, an ideal vascular graft should possess excellent
biocompatibility and mechanical properties. For this study, a elastic material of poly (l‐lactic …