Today, chitosan (CS) is probably considered as a biofunctional polysaccharide with the most
notable growth and potential for applications in various fields. The progress in chitin …

Several biomaterials, including natural polymers, are used to increase cellular interactions
as an effective way to treat bone injuries. Chitosan (CS) is one of the most studied …

Graphene and its derivatives have continued to garner worldwide interest due to their
unique characteristics. Having expanded into biomedical applications, there have been …

During continuous innovation in the preparation, characterization and application of various
bone repair materials for several decades, nanomaterials have exhibited many unique …

Leading-edge regenerative medicine can take advantage of improved knowledge of key
roles played, both in stem cell fate determination and in cell growth/differentiation, by …

We have witnessed abundant breakthroughs in research on the bio-applications of
graphene family materials in current years. Owing to their nanoscale size, large specific …

Stimuli-responsive biomaterials have attracted more attention in drug delivery area as
controlled release with physiologically relevant temporal and spatial context. Teriparatide is …

Several attempts have been made to engineer a viable three‐dimensional (3D) bone tissue
equivalent using conventional tissue engineering strategies, but with limited clinical …

The direct write printing method has gained popularity in synthesizing scaffolds for tissue
engineering. To achieve an excellent printability of scaffolds, a thorough evaluation of …

Objective To determine the effects of graphene oxide (GO) deposition (on a zirconia surface)
on bacterial adhesion and osteoblast activation. Methods An atmospheric pressure plasma …