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Stem Cells Expansion Vector via Bioadhesive Porous Microspheres for Accelerating Articular Cartilage Regeneration

Lang Bai, Qibin Han, Zeyu Han, Xiaoyu Zhang, Jingwen Zhao, Huitong Ruan, Junliang Wang, Feng Lin, Wenguo Cui, Xing Yang, Yuefeng Hao

2023Advanced Healthcare Materials36 citationsDOIOpen Access PDF

Abstract

Abstract Stem cell tissue engineering is a potential treatment for osteoarthritis. However, the number of stem cells that can be delivered, loss of stem cells during injection, and migration ability of stem cells limit applications of traditional stem cell tissue engineering. Herein, kartogenin (KGN)‐loaded poly(lactic ‐co‐ glycolic acid) (PLGA) porous microspheres is first engineered via emulsification, and then anchored with chitosan through the amidation reaction to develop a new porous microsphere (PLGA‐CS@KGN) as a stem cell expansion vector. Following 3D co‐culture of the PLGA‐CS@KGN carrier with mesenchymal stem cells (MSCs), the delivery system is injected into the capsule cavity in situ. In vivo and in vitro experiments show that PLGA‐CS microspheres have a high cell‐carrying capacity up to 1 × 10 4 mm −3 and provide effective protection of MSCs to promote their controlled release in the osteoarthritis microenvironment. Simultaneously, KGN loaded inside the microspheres effectively cooperated with PLGA‐CS to induce MSCs to differentiate into chondrocytes. Overall, these findings indicate that PLGA‐CS@KGN microspheres held high cell‐loading ability, adapt to the migration and expansion of cells, and promote MSCs to express markers associated with cartilage repair. Thus, PLGA‐CS@KGN can be used as a potential stem cell carrier for enhancing stem cell therapy in osteoarthritis treatment.

Topics & Concepts

Mesenchymal stem cellPLGAStem cellBiomedical engineeringTissue engineeringMaterials scienceRegeneration (biology)ChemistryOsteoarthritisCellCell biologyBiophysicsIn vitroMedicinePathologyBiologyBiochemistryAlternative medicineOsteoarthritis Treatment and MechanismsMesenchymal stem cell researchPeriodontal Regeneration and Treatments