This review explores state-of-the-art and new perspectives description of scaffold-based
strategies utilized in in-suit bone tissue engineering. The bone defects caused by severe …

Tissue engineering (TE) is a promising approach for repairing diseased and damaged bone
tissue. Injectable hydrogel based strategies offer a wide range of applications in rapid …

The past decade has seen the rapid development of new strategies for the design of
biodegradable macromolecular compounds, with properly suited architecture and tailored …

In the area of parenteral controlled release formulations, in situ forming implants (ISFI) are
attractive alternatives to preformed implants and microparticles. ISFI avoid the use of large …

Research and development in the design, synthesis, modification, evaluation, and
characterization of polysaccharide‐based bioactive polymeric materials for guiding and …

Hydrogels with long-term storage stability, controllable sustained-release properties, and
biocompatibility have been garnering attention as carriers for drug/growth factor delivery in …

A family of injectable, rapid gelling and highly flexible hydrogel composites capable of
releasing insulin-like growth factor (IGF-1) and delivering mesenchymal stromal cell (MSC) …

Tissue repair and regeneration is an interdisciplinary field focusing on development of
biological and bioactive substitutes. Chitosan is a natural polysaccharide exhibiting …

Chitosan‐beta glycerophosphate‐hydroxyethyl cellulose (CH‐GP‐HEC) is a biocompatible
and biodegradable scaffold exhibiting a sol–gel transition at 37° C. Chondrogenic factors or …

Abstract Chitosan (CS), glycerophosphate (GP) based injectable hydrogels are explored for
its implications in bone defect healing and regeneration. Both acellular and cell laden CS …