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Cartilage-bioinspired, tough and lubricated hydrogel based on nanocomposite enhancement effect

Fen Xiao, Pengshuo Zheng, Jianxin Tang, Xin Huang, Wenji Kang, Guiyin Zhou, Kehui Sun

2023Journal of Materials Chemistry B20 citationsDOI

Abstract

The maintenance of high load-bearing tissues and joint lubrication is essential for suppressing osteoarthritis. The lubrication of natural joints is mainly attributed to the hydration lubrication mechanism of articular cartilage. Phospholipids on the cartilage surface attract water molecules to form a tough hydrated layer to reduce friction. In this work, inspired by the phosphatidylcholine lipids, we synthesized lubricated nanospheres by grafting hydrophilic polymer brushes and further synthesized a nanocomposite hydrogel. The addition of the lubricated nanospheres enhanced both the mechanical and lubricated properties of the hydrogel. The nanocomposite-lubricated hydrogel exhibited a friction coefficient 81.7% lower than the blank hydrogel because of grafting the polymer brushes. Also, the nanocomposite enhancement helped the hydrogel achieve high mechanical properties with a compressive strength of 6.63 MPa (50%). The nanocomposite hydrogel developed here could be a promising candidate material in bionic articular cartilage substitute materials.

Topics & Concepts

Materials scienceNanocompositeLubricationBearing (navigation)Load bearingOsteoarthritisSelf-healingComposite materialJoint (building)CartilageArticular cartilageBiomedical engineeringNanotechnologyStructural engineeringComputer scienceMedicineEngineeringPathologyAnatomyArtificial intelligenceAlternative medicineHydrogels: synthesis, properties, applicationsOsteoarthritis Treatment and MechanismsAdvanced Drug Delivery Systems
Cartilage-bioinspired, tough and lubricated hydrogel based on nanocomposite enhancement effect | Litcius