The Role of Mesenchymal Stromal Cells in the Management of Knee Chondral Defects

Abstract: ä Mesenchymal stromal cells (MSCs) are a subset of progenitor cells that help to promote tissue healing and regeneration through the secretion of various cytokines and growth factors. Although technically pluripotent, MSCs in vivo rarely repair damaged tissue through direct differentiation and engraftment.ä Augmentation of traditional marrow stimulation techniques with MSCs has been theorized to improve repair tissue quality and defect fill. Clinical trials evaluating this technique are limited but have shown … Show more

“…Although technically pluripotent, MSCs rarely repair damaged tissue in vivo through direct differentiation and engraftment due to certain limitations, including the reduced capacity of these cells for self‐renewal, proliferation, and differentiation in donor sites. [ 56 ] The true benefit of MSCs in tissue repair appears to be attributable to their paracrine secretion of cellular factors, particularly exosomes, that modulate the microenvironment. [ 57 ] Recently, interest has arisen in the use of MSC‐derived exosomes as a biological tool for cartilage and bone repair.…”

3D Printing of Microenvironment‐Specific Bioinspired and Exosome‐Reinforced Hydrogel Scaffolds for Efficient Cartilage and Subchondral Bone Regeneration

“…Although technically pluripotent, MSCs rarely repair damaged tissue in vivo through direct differentiation and engraftment due to certain limitations, including the reduced capacity of these cells for self‐renewal, proliferation, and differentiation in donor sites. [ 56 ] The true benefit of MSCs in tissue repair appears to be attributable to their paracrine secretion of cellular factors, particularly exosomes, that modulate the microenvironment. [ 57 ] Recently, interest has arisen in the use of MSC‐derived exosomes as a biological tool for cartilage and bone repair.…”

3D Printing of Microenvironment‐Specific Bioinspired and Exosome‐Reinforced Hydrogel Scaffolds for Efficient Cartilage and Subchondral Bone Regeneration