Successful regeneration of large segmental bone defects remains a major challenge in
clinical orthopedics, thus it is of important significance to fabricate a suitable alternative …

The cell microenvironment has emerged as a key determinant of cell behavior and function
in development, physiology, and pathophysiology. The extracellular matrix (ECM) within the …

Biomaterials in the form of scaffolds hold great promise in the regeneration of diseased
tissues. The scaffolds stimulate cellular adhesion, proliferation and differentiation. While the …

A growing interest in creating advanced biomaterials with specific physical and chemical
properties is currently being observed. These high-standard materials must be capable to …

Since their initial formulation in the 1980s, calcium phosphate cements (CPCs) have been
increasingly used as bone substitutes. This article provides an overview on the chemistry …

A challenge in regenerating large bone defects under load is to create scaffolds with large
and interconnected pores while providing a compressive strength comparable to cortical …

The repair and regeneration of large bone defects resulting from disease or trauma remains
a significant clinical challenge. Bioactive glass has appealing characteristics as a scaffold …

Repair of load-bearing defects resulting from disease or trauma remains a critical barrier for
bone tissue engineering. Calcium phosphate (CaP) scaffolds are among the most …

Various types of grafts have been traditionally used to restore damaged bones. In the late
1960s, a strong interest was raised in studying ceramics as potential bone grafts due to their …

Highly porous ceramic scaffolds have been fabricated from a 70% SiO 2–30% CaO glass
powder using stereolithography and the lost-mould process combined with gel-casting. After …