Hydrogels derived from decellularized extracellular matrix (ECM) have been widely used as
a bioactive matrix for facilitating functional bone tissue regeneration. However, its poor …

This research aims to design and fabricate a novel hydrogel-based composite as a
functional biomimetic and biocompatible scaffold for amended osteoblastic differentiation of …

Recently, injectable dual-crosslinked (DC) hydrogel scaffolds have attracted many attentions
as a class of excellent bone regeneration biomaterials with in-situ tunable functions …

Although decellularized bone matrix (DBM) has often been used in scaffold form for
osteogenic applications, its use as a stem cell encapsulation matrix adaptable to surgical …

In this study, we developed a biocompatible composite hydrogel that incorporates
microspheres. This was achieved using a Schiff base reaction, which combines the amino …

Stem cell encapsulation in hydrogels has been widely employed in tissue engineering,
regenerative medicine, organ-on-a-chip devices and gene delivery; however, fabrication of …

We aimed to evaluate the integration of stem cells with injectable microspheres loaded with
growth factors using a chitosan (CS) scaffold to promote healthy bone regeneration. We …

Fabrication of reinforced scaffolds for bone regeneration remains a significant challenge.
The weak mechanical properties of the chitosan (CS)-based composite scaffold hindered its …

Effective bone tissue engineering can restore bone and skeletal functions that are impaired
by traumas and/or certain medical conditions. Bone is a complex tissue and functions …

To meet the progressive requirements for bone regeneration purpose, injectable hydrogels
have attracted increasing attention in tissue regeneration and local drug delivery …