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Cartilage-Inspired Hydrogel with Mechanical Adaptability, Controllable Lubrication, and Inflammation Regulation Abilities

Peng Yu, Yanyan Li, Hui Sun, Xiang Ke, Jiaqi Xing, Yiran Zhao, Xinyuan Xu, Meng Qin, Jing Xie, Jianshu Li

2022ACS Applied Materials & Interfaces67 citationsDOI

Abstract

Cartilage is a key component in joints because of its load-bearing and lubricating abilities. However, osteoarthritis often leads to afunction of load-bearing/lubrication and occurrence of inflammation with overexpressed reactive oxygen species (ROS) and nitric oxide (NO). To address these issues, we fabricated a novel polyanionic hydrogel with abundant carboxylates/sulfonates (“CS” hydrogel), inspired by normal cartilage rich in anionic hyaluronate/sulfonate glycosaminoglycan/lubricin, and crosslinked it tightly by Fe3+ (“CS-Fe” hydrogel). The “CS-Fe” hydrogel displayed mechanical adaptability and shear resistance. A low coefficient of friction (∼0.02) appeared when a loose hydrogel layer was generated because of the photoreduction of Fe3+ to Fe2+ by UV irradiation. This biocompatible “CS-Fe” hydrogel suppressed the overexpressed hydroxyl radical (·OH) and NO in macrophages and protected chondrocytes/fibroblasts from aggressive inflammation. Moreover, the layered “CS-Fe” hydrogel avoided cell death of chondrocytes in sliding tests. The results demonstrate that this cartilage-inspired hydrogel is a promising candidate material in cartilage tissue engineering to especially address inflammation.

Topics & Concepts

Materials scienceCartilageSelf-healing hydrogelsInflammationGlycosaminoglycanLayer (electronics)Nitric oxideReactive oxygen speciesBiomedical engineeringOsteoarthritisBiophysicsComposite materialChemistryPolymer chemistryBiochemistryAnatomyImmunologyOrganic chemistryBiologyAlternative medicineMedicinePathologyOsteoarthritis Treatment and MechanismsDendrimers and Hyperbranched PolymersKnee injuries and reconstruction techniques
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