Cell-only bioprinting of articular cartilage progenitor cells within a physically constraining support bath to engineer structurally organized grafts
Aliaa S. Karam, Gabriela S. Kronemberger, Kaoutar Chattahy, Daniel J. Kelly

TL;DR
Researchers developed a bioprinting method to create cartilage grafts with organized collagen structures by using physical boundaries to guide cell alignment.
Contribution
A novel cell-only bioprinting approach using a support bath to control collagen alignment in engineered cartilage grafts.
Findings
Physical boundaries enhance collagen alignment in bioprinted cartilage tissues.
Bioprinted cartilage sheets exhibit arcade-like collagen organization mimicking natural cartilage.
AC progenitor cells outperform chondrocytes in forming functional cartilage grafts.
Abstract
Engineering functional articular cartilage (AC) grafts is one of the greatest challenges in tissue engineering. Recapitulating the arcade-like collagen organisation of AC, which is integral to the tissues’ strength and stiffness, is necessary to engineer truly functional grafts. This motivates the need for innovative strategies to control collagen alignment in engineered tissues in a programmable manner. Emerging 3D bioprinting strategies can provide spatially defined cues to guide tissue growth. Therefore, the goal of this study was to use embedded bioprinting to provide spatially defined boundary conditions to AC progenitor cells (ACP) to direct collagen organization and support the development of biomimetic cartilage tissues. ACPs were isolated through differential adhesion to fibronectin and demonstrated superior chondrogenesis to donor matched chondrocytes. Two different approaches…
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Taxonomy
TopicsOsteoarthritis Treatment and Mechanisms · 3D Printing in Biomedical Research · Silk-based biomaterials and applications
