Superlarge living hyaline cartilage graft contributed by the scale-changed porous 3D culture system for joint defect repair

Author:

Yao HangORCID,Li Tianliang,Wu Zhonglian,Tao Qi,Shi Junli,Liu Lihua,Zhao Yuchi

Abstract

Abstract It is known that an excellent hyaline cartilage phenotype, an internal microstructure with safe crosslinking and available size flexibility are the key factors of cartilage grafts that allow for clinical application. Living hyaline cartilage grafts (LhCGs) constructed by phase-transfer hydrogel (PTCC) systems were reported to have a hyaline phenotype and bionic microstructure. By employing chondrocytes to secrete matrix in the hydrogel and then removing the material to obtain material-free tissue in vitro, LhCG technology exhibited superior performance in cartilage repair. However, PTCC systems could only produce small-sized LhCGs because of medium delivery limitations, which hinders the clinical application of LhCGs. In this study, we prepared three different noncrosslinked gelatin microspheres with diameters from 200 μm to 500 μm, which replaced the original pore-forming agent. The new PTCC system with the mixed and gradient porous structure was used for the preparation of superlarge LhCGs with a continuous structure and hyaline phenotype. Compared to the original technique, the porous gradient structure promoted nutrient delivery and cartilage matrix secretion. The small size of the microporous structure promoted the rapid formation of matrix junctions. The experimental group with a mixed gradient increased cartilage matrix secretion significantly by more than 50% compared to the that of the control. The LhCG final area reached 7 cm2 without obvious matrix stratification in the mixed gradient group. The design of the scale-changed porous PTCC system will make LhCGs more promising for clinical application.

Funder

Yangzhou Social Development Project

Natural Science Foundation of the Jiangsu Higher Education Institutions of China

National Science Foundation for Young Scientists of Jiangsu Province

National Natural Science Foundation of China

Shixiao cooperation projects of Yangzhou

Publisher

IOP Publishing

Subject

Biomedical Engineering,Biomaterials,Bioengineering

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