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 …

Advances in nanoparticle (NP) production and demand for control over nanoscale systems
have had significant impact on tissue engineering and regenerative medicine (TERM). NPs …

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 …

The encapsulation of stem cells in a hydrogel substrate provides a promising future in
biomedical applications. However, communications between hydrogels and stem cells is …

Human intestinal organoids (HIOs) represent a powerful system to study human
development and are promising candidates for clinical translation as drug-screening tools or …

Abstract 3D microenvironmental parameters control cell behavior, but can be challenging to
investigate over a wide range of conditions. Here, a combinatorial hydrogel platform is …

Developing biomimetic cartilaginous tissues that support locomotion while maintaining
chondrogenic behavior is a major challenge in the tissue engineering field. Specifically …

Formation of graded biomaterials to render shape-morphing scaffolds for 4D biofabrication
holds great promise in fabrication of complex structures and the recapitulation of critical …

Polymer hydrogels have been widely explored as therapeutic delivery matrices because of
their ability to present sustained, localized and controlled release of bioactive factors …