Litcius/Paper detail

Regeneration of Humeral Head Using a 3D Bioprinted Anisotropic Scaffold with Dual Modulation of Endochondral Ossification

Tao Li, Zhengjiang Ma, Yuxin Zhang, Zezheng Yang, Wentao Li, Dezhi Lu, Yihao Liu, Lei Qiang, Tianchang Wang, Ren Ya, Wenhao Wang, Hongtao He, Xiaojun Zhou, Yuanqing Mao, Junfeng Zhu, Jinwu Wang, Xiaodong Chen, Kerong Dai

2023Advanced Science25 citationsDOIOpen Access PDF

Abstract

Tissue engineering is theoretically thought to be a promising method for the reconstruction of biological joints, and thus, offers a potential treatment alternative for advanced osteoarthritis. However, to date, no significant progress is made in the regeneration of large biological joints. In the current study, a biomimetic scaffold for rabbit humeral head regeneration consisting of heterogeneous porous architecture, various bioinks, and different hard supporting materials in the cartilage and bone regions is designed and fabricated in one step using 3D bioprinting technology. Furthermore, orchestrated dynamic mechanical stimulus combined with different biochemical cues (parathyroid hormone [PTH] and chemical component hydroxyapatite [HA] in the outer and inner region, respectively) are used for dual regulation of endochondral ossification. Specifically, dynamic mechanical stimulus combined with growth factor PTH in the outer region inhibits endochondral ossification and results in cartilage regeneration, whereas dynamic mechanical stimulus combined with HA in the inner region promotes endochondral ossification and results in efficient subchondral bone regeneration. The strategy established in this study with the dual modulation of endochondral ossification for 3D bioprinted anisotropic scaffolds represents a versatile and scalable approach for repairing large joints.

Topics & Concepts

Endochondral ossificationScaffoldCartilageBiomedical engineeringMaterials scienceRegeneration (biology)AnatomyCell biologyBiologyEngineeringOsteoarthritis Treatment and Mechanisms3D Printing in Biomedical ResearchKnee injuries and reconstruction techniques