In spite of the considerable achievements in the field of regenerative medicine in the past
several decades, osteochondral defect regeneration remains a challenging issue among …

Repairing articular osteochondral defects present considerable challenges in self‐repair
due to the complex tissue structure and low proliferation of chondrocytes. Conventional …

The reconstruction of large cranial bone defects by bioactive materials without exogenous
cells or growth factors remains a substantial clinical challenge. Here, synthetic fibrous …

Numerous surgical procedures are daily performed worldwide to replace and repair
damaged tissue. Tissue engineering is the field devoted to the regeneration of damaged …

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

Abstract Development of wound dressings that not only have multiple advantages including
good barrier properties, elasticity and shape memory properties, but also show anti …

The osteochondral defect repair has been most extensively studied due to the rising
demand for new therapies to diseases such as osteoarthritis. Tissue engineering has been …

Significant progress has been made in the field of cartilage and bone tissue engineering
over the last two decades. As a result, there is real promise that strategies to regenerate …

Cartilage injury is extremely common and leads to joint dysfunction. Existing joint prostheses
do not remodel with host joint tissue. However, developing large-scale biomimetic …

Natural tissues and organs exhibit an array of spatial gradients, from the polarized neural
tube during embryonic development to the osteochondral interface present at articulating …