It is difficult to achieve self-healing outcoming for the osteochondral defects caused by
degenerative diseases. The simultaneous regeneration of both cartilage and subchondral …

Because cartilage and bone tissues have different lineage‐specific biological properties, it is
challenging to fabricate a single type of scaffold that can biologically fulfill the requirements …

Osteochondral defects are most commonly characterized by damages to both cartilage and
bone tissues as a result of serious traumas or physical diseases; because these two tissues …

Regeneration of osteochondral tissue is of great potentialities in repairing severe
osteochondral defects. However, anisotropic physiological characteristics and tissue linage …

The present study provides a solvent-free processing method for establishing the ideal
porous 3-dimension (3D) scaffold filled with different ratios of calcium silicate-based (CS) …

Currently, clinically available orthopedic implants are extremely biocompatible but they lack
specific biological characteristics that allow for further interaction with surrounding tissues …

Implanting a 3D printing scaffold is an effective therapeutic strategy for personalized bone
repair. As the key factor for the success of bone tissue engineering, the scaffold should …

Silicate bioactive materials have been widely studied for bone regeneration because of their
eminent physicochemical properties and outstanding osteogenic bioactivity, and different …

The different lineage-specific biological properties of articular cartilage and subchondral
bone present a great challenge in the construction of bi-lineage scaffolds for simultaneous …

Purpose–The purpose of this paper is to fabricate and characterize osteochondral beta‐
tricalcium phosphate/collagen scaffold with bio‐inspired design by ceramic …