Litcius/Paper detail

In vitro and in vivo investigation of chitosan/silk fibroin injectable interpenetrating network hydrogel with microspheres for cartilage regeneration

Hossein Shaygani, Amir Shamloo, Kazem Akbarnataj, Sasan Maleki

2024International Journal of Biological Macromolecules30 citationsDOIOpen Access PDF

Abstract

Articular cartilage is an avascular and almost acellular tissue with limited self-regenerating capabilities. Although injectable hydrogels have garnered a lot of attention as a promising treatment, a biocompatible hydrogel with adequate mechanical properties is yet to be created. In this study, an interpenetrating network hydrogel comprised of chitosan and silk fibroin was created through electrostatic and hydrophobic bonds, respectively. The polymeric network of the scaffold combined an effective microenvironment for cell activity with enhanced mechanical properties to address the current issues in cartilage scaffolds. Furthermore, microspheres (MS) were utilized for a controlled release of methylprednisolone acetate (MPA), around ~75 % after 35 days. The proposed scaffolds demonstrated great mechanical stability with ~0.047 MPa compressive moduli and ~145 kPa compressive strength. Moreover, the degradation rate of the samples (~45 % after 35 days) was optimized to match neo-cartilage formation. Furthermore, the use of natural biomaterials yielded good biocompatibility with ~76 % chondrocyte viability after 7 days. According to gross observation after 12 weeks the defect site of the treated groups was filled with minimally discernible boundary. These results were confirmed by histopathology assays were the treated groups showed higher chondrocyte count and collagen type II expression.

Topics & Concepts

FibroinBiocompatibilitySelf-healing hydrogelsChitosanBiomedical engineeringCartilageChondrocyteMaterials scienceScaffoldRegeneration (biology)NanofiberIn vivoChemistrySILKComposite materialPolymer chemistryAnatomyMetallurgyBiologyBiotechnologyBiochemistryCell biologyMedicineSilk-based biomaterials and applicationsOsteoarthritis Treatment and MechanismsPeriodontal Regeneration and Treatments