Effect of a mechanical stimulation bioreactor on tissue engineered, scaffold-free cartilage

## Abstract ## Background and Objective Forming cartilage tissue in vitro that resembles native tissue is one of the challenges of cartilage tissue engineering. The aim of this study was to determine whether low‐power laser stimulation would improve the formation of cartilage tissue in vitro. ##

Cartilaginous constructs have been grown in v i f m with use of isolated cells, biodegradable polymer scaffolds, and bioreactors. In the present work, the relationships between the composition and mechanical properties of engineered cartilage constructs were studied by culturing bovine calf articula

## Abstract Tissue engineering is a new approach to articular cartilage repair; however, the integration of the engineered cartilage into the host subchondral bone is a major problem in osteochondral injury. The aim of the present work, therefore, was to make a tissue‐engineered osteochondral const

## Abstract A MHDS has been employed to fabricate 3D scaffolds from PLGA with acetyl endgroups to achieve in vivo regeneration of cartilage tissue. The fabricated acetylated‐PLGA scaffold showed open pores and interconnected structures. Rabbit chondrocytes were seeded on the PLGA scaffolds and tran

## Abstract The specific aim of our investigation is to study the potential use of a collagen/heparin‐carrying polystyrene (HCPS) composite extracellular matrix for articular cartilage tissue engineering. Here, we created a high‐performance extracellular matrix (HpECM) scaffold to build an optimal