Successful materials design for bone-tissue engineering requires an understanding of the
composition and structure of native bone tissue, as well as appropriate selection of …

Biodegradable metals are promising candidates for bone defect repair. With an evidence-
based approach, this study investigated and analyzed the performance and degradation …

It has been demonstrated that development of three-dimensional printing technology has
supported the researchers and surgeons to apply the bone tissue engineering to the …

Most existing preclinical models for evaluating the biosafety and bone-regeneration efficacy
of innovative bone substitute materials (BSMs) or tissue engineering (TE) constructs only …

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 …

Background Vascularized bone tissue transfer, commonly used to reconstruct large
mandibular defects, is challenged by long operative times, extended hospital stay, donor …

The basic concepts from the fields of biology and engineering are integrated into tissue
engineering to develop constructs for the repair of damaged and/or absent tissues …

The craniofacial region is composed of 23 bones, which provide crucial function in keeping
the normal position of brain and eyeballs, aesthetics of the craniofacial complex, facial …

Maxillofacial bone defect repair and regeneration remains a tremendous challenge in the
field of stomatology. However, the limited osteoinductivity of artificial materials and the high …

Nanozymes are multi-functional nanomaterials with enzyme-like activity, which rapidly won
a place in biomedicine due to their number of nanocatalytic materials types and …