This paper builds on the context and recent progress on the control, reproducibility, and
limitations of using graphene and graphene-related materials (GRMs) in biomedical …

Biomaterials play a core role in cartilage repair and regeneration. The success or failure of
an implanted biomaterial is largely dependent on host response following implantation. Host …

While short-term surface energy effects on cell adhesion are relatively well known, little is
revealed as regards its later stage effects on cell behavior. We examined surface energy …

Crosslinked xyloglucan-poly (vinyl alcohol) based hydrogel films are interesting materials for
wound healing applications. This work focuses on the hydrolytic degradation and …

Aliphatic polyester is a kind of biodegradable implantable polymers, which shows promise
as scaffolds in tissue engineering, drug carrier, medical device, and so on. To further …

The success of an implant used for bone regeneration and repair is determined by the
events that take place at the cell–material interface. An understanding of these interactions …

Recently, targeted drug delivery systems (TDDSs) have been extensively studied as a
promising therapeutic for tumor therapy. In this review, we investigate the typical targeting …

Phase separation of PLLA/PS (50/50, w/w) solutions during a spin-casting process gives rise
to well-defined nanotopographies of 14, 29 and 45nm deep pits depending on the …

To explore molecular mechanism of mediation of adsorbed proteins to cell adhesion and
growth on biomaterials, this study examined endothelial cell adhesion, morphology and …

Important in developing new biomaterials is the prevention of unspecific protein adsorption
and cell interactions that in vivo can lead to a foreign body reaction. On the other hand, the …