The current treatment for periodontitis is aimed at resolving gingival inflammation, whilst
complete periodontal tissue regeneration is not predictable, and it represents a therapeutic …

Advanced porous synthetic scaffolds are particularly suitable for regeneration of damaged
tissues, but there is the risk of infections due to the colonization of microorganisms, forming …

Nanostructured inorganic biomaterial emerged as the most essential platform to address
traumatic and non-traumatic conditions of hard tissues in the current scenario. Synthetic …

Bone defect therapy based on advanced biocomposite hydrogel scaffolds provide a
promising strategy in bone tissue engineering. Inducing bone regeneration that meets the …

Hydroxyapatite (HA) is an important component of human bone and bone tissue
engineering scaffolds. A plethora of bone tissue engineering scaffolds have been …

An ideal bone repair scaffold is expected to possess superior architectural characteristics to
facilitate the adhesion, proliferation, and migration of bone‐repair‐related cells, while …

A biocomposite scaffold was developed using chitosan (CS) and bovine-derived
hydroxyapatite (BHA). The prepared CS–BHA biocomposite scaffold was characterized for …

The critical bone defect is still an urgent problem in the field of bone repair. Here, we
reported a new type of chitosan (CS)–hydroxyapatite (HAP) scaffolds based on lyophilized …

A 3D injectable hydrogel‐bioceramic composite consisting of gelatin‐3‐(4‐hydroxyphenyl)
propionic acid (Gtn‐HPA) and carboxymethyl cellulose‐tyramine (CMC‐Tyr), incorporated …

Current bioceramic scaffolds for critical-size bone defects are still facing various challenges
such as the poor capability of self-resorption, vascularization and osteogenesis. Herein, a …