Promoting bone regeneration and repairing defects are urgent and critical challenges in
orthopedic clinical practice. Research on bone substitute biomaterials is essential for …

Given their native-like biological properties, high growth factor retention capacity and porous
nature, sulfated-polysaccharide-based scaffolds hold great promise for a number of tissue …

The loss of bone tissue is a striking challenge in orthopedic surgery. Tissue engineering
using various advanced biofunctional materials is considered a promising approach for the …

Stem cell therapy based on advanced biomaterials provides a promising strategy in bone
tissue engineering. Nevertheless, guided bone regeneration which fulfills the criteria in …

Exposure to a growth factor abundant milieu has remarkable regenerative and rejuvenating
effects on organ diseases, tissue damage, and regeneration, including skeletal system …

Bone regeneration is a complex process in which angiogenesis and osteogenesis are
crucial. Introducing multiple angiogenic and osteogenic cues simultaneously into a single …

Titanium alloy orthopedic implants produced by 3D printing combine the dual advantages of
having a complex structure that cannot be manufactured by traditional techniques and the …

Silk is a natural fibrous polymer with application potential in regenerative medicine.
Increasing interest remains for silk materials in bone tissue engineering due to their …

In recent years, bone tissue engineering (BTE), as a multidisciplinary field, has shown
considerable promise in replacing traditional treatment modalities (ie, autografts, allografts …

Carbon dots are a new kind of nanomaterial which has great potential in biomedical
applications. Previously, we have synthesized novel Zn2+-passivated carbon dots (Zn-CDs) …