Tissue engineering of human cartilage in bioreactors using single and composite cell-seeded scaffolds

## Abstract Developments in tissue engineering over the past decade have offered promising future for the repair and reconstruction of damaged tissues. To regenerate three dimensional and weight‐bearing implants, advances in biomaterials and manufacturing technologies prompted cell cultivations wit

## Abstract A composite scaffold of poly(L‐lactic‐__co__‐glycolic acid) (PLGA) microspheres and fibrin gel was fabricated by blending fibrinogen‐immobilized PLGA microspheres with fibrinogen and thrombin solution. The PLGA microspheres with a size of 70 ∼ 100 μm were aminolyzed in a hexanediamine/_

## Abstract Human mesenchymal stem cells (hMSCs) are an alternative cell source in bioconstruct production for cartilage regeneration, and hyaluronic acid (HA) is a widely‐used bioabsorbable scaffold material used for cartilage regeneration. In this work, the aims were to evaluate the mechanical co

## Abstract Chondrogenic potential of human adipose derived stem cells (hASCs) makes them a possible source of seeding cells for cartilage tissue engineering. We aim to examine the chondrogenic differentiation of human transforming growth factor β2 (hTGF β2) transduced hASCs seeded in three‐dimensi

## Abstract Adipose tissue derived stromal cells (ATSCs), which were isolated from adipose tissue of rabbit, have shown to possess multipotential, that is, they differentiate into osteoblasts and adipocytes in plate‐culturing and into chondrocytes in an established aggregate culture using defined d

## Abstract Dynamic flow culture bioreactor systems have been shown to enhance __in vitro__ bone tissue formation by facilitating mass transfer and providing mechanical stimulation. Our laboratory has developed a biodegradable poly (lactic acid glycolic acid) (PLAGA) mixed scaffold consisting of li