Osteochondral defects affect articular cartilage, calcified cartilage, and subchondral bone.
The main problem that they cause is a different behavior of cell tissue in the osteochondral …

Architectural, compositional, and mechanical gradients are present in many interfacial
tissues in the body. Yet desired for regeneration, the recreation of these complex natural …

Owing to dysfunction of the uterus, millions of couples around the world suffer from infertility.
Different from conventional treatments, tissue engineering provides a new and promising …

Abstract 3D printing is an effective method to prepare 3D scaffolds for tissue engineering
applications. However, optimization of printing conditions to obtain suitable mechanical …

Prolonged osteochondral tissue engineering damage can result in osteoarthritis and
decreased quality of life. Multiphasic scaffolds, where different layers model different …

Digital light processing (DLP) is a vat photopolymerization 3D printing technique with
increasingly broad application prospects, particularly in personalized medicine, such as the …

The present investigation demonstrates the feasibility of dysprosium phosphate (DyPO4) as
an efficient additive in polylactide (PLA) to develop 3D printed scaffolds through the material …

Repairing cartilage tissue is a serious global challenge. Herein, we focus on wood skeletal
structures that are highly porous for cell penetration yet have load-bearing strength, and aim …

The advent of 3D printing technologies has led to a new era in tissue regeneration, offering
unparalleled precision and versatility in fabricating scaffolds for various biomedical …

Osteochondral tissue has limited self-repair ability owing to its ischemic microenvironment
and mechanically challenging conditions. Cell-based tissue engineering, a promising …