Litcius/Paper detail

A smart injectable composite hydrogel with magnetic navigation and controlled glutathione release for promoting <i>in situ</i> chondrocyte array and self-healing in damaged cartilage tissue

Min‐Yu Chiang, I-Yun Cheng, Syun‐Hong Chou, Jen-Hao Tsai, Yongji Chen, Huai‐En Lu, Shan‐Wei Yang, Shwu‐Jen Chang, San‐Yuan Chen

2021Journal of Materials Chemistry B24 citationsDOI

Abstract

-glycolic acid) (PLGA) magnetic microcapsules (PPMMs) with glutathione (GSH) loaded and iron oxide nanoparticles (IO) located in the shell were designed. The GSH-loaded PPMMs with layer-by-layer (LbL) assembly of hyaluronic acid (HA) and GSH (LbL-PPMMs) can provide a two-stage rapid and slow release of GSH to modulate the self-healing of the HA-pAA hydrogel at the injured site. Furthermore, the chondrocytes embedded in the HA-pAA hydrogel could be delivered through CD44 receptors on the HA polymer chains of LbL-PPMMs toward the surface of the damaged site by an internal magnetic force. The composite hydrogel system of chondrocytes/LbL-PPMMs/HA-pAA can provide the damaged cartilage with a more even and smooth surface than other groups in a rabbit model after 8 weeks of implantation. In addition, the chondrocytes in the deep zone tissue exhibit a columnar array, similar to the cell arrangement in normal cartilage tissue. Together with the cell navigation behavior and GSH release from the LbL-PPMM/HA-pAA hydrogel, a full closure of lesions on the cartilage tissue can be achieved. Our results demonstrate the highly promising potential of the injectable LbL-PPMM/HA-pAA system in cartilage tissue repair.

Topics & Concepts

ChondrocyteCartilageMaterials scienceSelf-healingComposite numberBiomedical engineeringIn situArticular cartilageNanotechnologyComposite materialAnatomyChemistryOsteoarthritisMedicinePathologyOrganic chemistryAlternative medicineOsteoarthritis Treatment and MechanismsHydrogels: synthesis, properties, applicationsKnee injuries and reconstruction techniques