The regeneration of 3D tissue constructs with clinically relevant sizes, structures, and
hierarchical organizations for translational tissue engineering remains challenging. 3D …

Articular cartilage defects bring about disability and worldwide socioeconomic loss,
therefore, articular cartilage repair and regeneration is recognized as a global issue …

Abstract Three-dimensional (3D) bioprinting holds promise for precise repair of bone
defects, but rapid formation of effective vascularized tissue by 3D-printed construct is still a …

Tissue engineering is a promising strategy for damaged cartilage tissue repair. Three-
dimensional (3D) printed hydrogel exhibits great potential in cartilage tissue engineering for …

Osteoarthritis is a worldwide prevalent disease that imposes a significant socioeconomic
burden on individuals and healthcare systems. Achieving cartilage regeneration in patients …

Damage to cartilage tissues is often difficult to repair owing to chronic inflammation and a
lack of bioactive factors. Therefore, developing bioactive materials, such as hydrogels acting …

The treatment of infected bone defects is a major clinical challenge, which requires the
development of scaffolds to simultaneously eliminate infection and provide a suitable …

Bone defects are encountered substantially in clinical practice, and bionic scaffolds
represent a promising solution for repairing bone defects. However, it is difficult to fabricate …

In this study, inspired by the components of cartilage matrix, a photo-cross-linked
extracellular matrix (ECM) bioink composed of modified proteins and polysaccharides was …

The regeneration of articular cartilage remains a great challenge due to the difficulty in
effectively enhancing spontaneous healing. Recently, the combination of implanted stem …