Osteoarthritis may result in both cartilage and subchondral bone damage. It is a significant
challenge to simultaneously repair cartilage due to the distinct biological properties between …

Worldwide, the number of bone fractures due to traumatic and accidental injuries is
increasing exponentially. In fact, repairing critical large bone defects remains challenging …

The functionality or survival of tissue engineering constructs depends on the adequate
vascularization through oxygen transport and metabolic waste removal at the core. This …

To improve osseointegration caused by the stress-shielding effect and the inert nature of
titanium-based alloys, in this work, we successfully constructed a strontium calcium …

The design of porous structure that mimic trabecular bone is an effective method for
optimizing the elastic modulus and osseointegration properties of titanium alloy implants …

Porous titanium (Ti) and titanium alloys are promising scaffold biomaterials for bone tissue
engineering, because they have the potential to provide new bone tissue ingrowth abilities …

Three-dimensional (3D) printing provides a novel approach to repair bone defects using
customized biomimetic tissue scaffolds. To make a bone substitute closest to natural bone …

Contaminated or infected bone defects remain serious challenges in clinical trauma and
orthopaedics, and a bone substitute with both osteoconductivity and antibacterial properties …

In view of the fact that titanium (Ti)-based implants still face the problem of loosening and
failure of the implants caused by the slow biological response, the low osseointegration rate …

In this study, scaffolds based on chitosan/Alginate/Hardystonite (Cs/Alg/HD) were developed
for bone tissue engineering (BTE). For this aim, the bioactive HD powder was synthesized …