This work presents the enhanced biomineralization and protein adsorption capacity of 3D
chitosan/hydroxyapatite (CS/HAp) biomimetic scaffolds synthesized from natural sources …

Numerous studies have demonstrated that calcium silicate (CS) can be doped with various
trace metal elements such as strontium (Sr) or magnesium (Mg). These studies have …

With advances in bone tissue engineering, various materials and methods have been
explored to find a better scaffold that can help in improving bone growth and regeneration …

This research aimed to substantiate the potential practicality of utilizing a matrix-like
platform, a novel 3D-printed biomaterial scaffold, to enhance and guide host cells' growth for …

Background Titanium and its alloys have been widely employed for bone tissue repair and
implant manufacturing. The rapid development of three-dimensional (3D) printing …

This study aims to improve the interfacial bonding between the osseous host tissue and the
implant surface through the application of doped calcium phosphate (CaP) coating on 3D …

Customized scaffold plays an important role in bone tissue regeneration. Precise control of
the mechanical properties and biological functions of scaffolds still remains a challenge. In …

Currently, clinically available orthopedic implants are extremely biocompatible but they lack
specific biological characteristics that allow for further interaction with surrounding tissues …

Mesenchymal stem cells (MSCs) are a promising candidate for bone repair. However, the
maintenance of MSCs injected into the bone injury site remains inefficient. A potential …

A novel composite scaffold consisting of porous Ti part filled with chitosan/HA sponge was
fabricated using a combination of electron beam melting and freeze-drying. The mechanical …