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 …

Major challenges in biofabrication revolve around capturing the complex, hierarchical
composition of native tissues. However, individual 3D printing techniques have limited …

The inner structures of the eye are protected by the cornea, which is a transparent
membrane exposed to the external environment and subjected to the risk of lesions and …

The current barrier to clinical translation of small‐caliber tissue‐engineered vascular grafts
(TEVGs) is the long‐term patency upon implantation in vivo. Key contributors are thrombosis …

Congenital and acquired tissular losses due to disease or trauma are a major world health
problem. Regenerative therapy aims to fix damaged tissues by directing the natural capacity …

To achieve osteogenesis, angiogenesis, and neurogenesis for repairing bone defects, we
constructed an anisotropic microspheres–cryogel composite loaded with magnesium l …

Bone metastasis primarily occurs when breast, prostate, or lung cancers disseminate
tumoral cells into bone tissue, leading to a range of complications in skeletal tissues and, in …

Mg-based biodegradable metallic implants are gaining increased attraction for applications
in orthopedics and dentistry. However, their current applications are hampered by their high …

Encapsulating multiple growth factors within a scaffold enhances the regenerative capacity
of engineered bone grafts through their localization and controls the spatiotemporal release …

Abstract 3D bioprinting technology, a subset of 3D printing technology, is currently
witnessing widespread utilization in tissue repair and regeneration endeavors. In particular …