Bone healing is an impressive ability of the human body, but critical-sized bone defects
require external intervention. Bioceramic scaffolds with excellent biocompatibility and …

Bone biomaterials play a vital role in bone repair by providing the necessary substrate for
cell adhesion, proliferation, and differentiation and by modulating cell activity and function. In …

Tissue engineering is a rapidly-growing approach to replace and repair damaged and
defective tissues in the human body. Every year, a large number of people require bone …

Repair of bone defects is a time-consuming, self-healing process based on tissue modeling
and remodeling. However, the capacity of this method is limited, especially for critical-sized …

The design and use of materials in the nanoscale size range for addressing medical and
health-related issues continues to receive increasing interest. Research in nanomedicine …

A variety of engineered scaffolds have been created for tissue engineering using polymers,
ceramics and their composites. Biomimicry has been adopted for majority of the three …

Abstract Poly (lactic acid)(PLA) is a synthetic polyester that has shown extensive utility in
tissue engineering. Synthesized either by ring opening polymerization or polycondensation …

Abstract Poly (lactic acid)(PLA) with good biodegradability, biocompatibility and
processability has a wide application prospect in bone tissue engineering. However, PLA …

Osteonecrosis of the femoral head (ONFH) is a devastating and complicated disease with an
unclear etiology. Femoral head‐preserving surgeries have been devoted to delaying and …

The field of bone tissue engineering has seen significant advancements in recent years.
Each year, over two million bone transplants are performed globally, and conventional …