Promoting angiogenesis is a key strategy for stimulating the repair of damaged tissues,
including bone. Among other proangiogenic factors, ions have recently been considered a …

Angiogenesis is considered an important issue in the development of biomaterials for the
successful regeneration of tissues including bone. While growth factors are commonly used …

For regeneration of highly vascularized and innervated tissues, like bone, simultaneous
ingrowth of blood vessels and nerves is essential but largely neglected. To address this …

Multipotent human bone marrow mesenchymal stem cells (hBMSCs) are commonly used as
seed cells in bone tissue engineering, but their clinical application is limited due to two …

Abstract 3D printing has been popularly used in the bone tissue engineering, as many of the
biomaterials for this field of study can be prepared for and produced from this additive …

In this study, an injectable calcium silicate (CS)/sodium alginate (SA) hybrid hydrogel was
prepared using a novel material composition design. CS was incorporated into an alginate …

Despite bone's impressive ability to heal after traumatic injuries and fractures, a significant
need still exists for developing strategies to promote healing of nonunion defects. To …

The facts that biomaterials affect the behavior of single type of cells have been widely
accepted. However, the effects of biomaterials on cell–cell interactions have rarely been …

Biodegradation and bioinductivity are important factors to decide scaffold efficiency in
inducing tissue regeneration. For bone regeneration, calcium silicate (CS) is attractive for its …

Scaffolds that can provide the requisite biological cues for the fast regeneration of bone are
highly relevant to the advances in tissue engineering and regenerative medicine. In the …