Electrospun nanofibrous mats represent a new generation of medical textiles with promising
applications in heart valve tissue reconstruction. It is important for biomaterials to mimic the …

In this work, we report the electrospinning and mechano-morphological characterizations of
scaffolds based on blends of a novel poly (ester urethane urea)(PHH) and poly …

This study developed a platform for fabricating small-diameter vascular grafts using
electrospun poly (carbonate-urea) urethane bonded with different concentrations of POSS …

Nanotechnology has enabled the engineering of a variety of materials to meet the current
challenges and needs in vascular tissue regeneration. In this study, four different kinds of …

Electrospinning is a versatile technique for producing nanocomposite in biomedical
applications. In this study, polyurethane (PU) cardiac patch loaded with nickel oxide (NiO) …

Tissue engineering heart valves (TEHV) are thought to have many advantages in low
immunogenicity, good histocompatibility, excellent mechanical properties. In this paper, we …

To improve the interaction between cells and scaffolds, the appropriate surface chemical
property is very important for tissue engineering scaffolds. In this work, the dopamine (DA) …

Tissue engineering requires functional polymeric membrane for adequate space for cell
migration and attachment within the nanostructure. Therefore, biocompatible propolis …

The main reason for the failure of artificial blood vessel transplantation is the lack of
mechanically matched materials with excellent blood compatibility. The electrospun …

Although there is enormous growth in the technology for cardiovascular applications,
remodeling of the damaged cardiac tissue is still a daunted task. Polymeric scaffold could be …