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Bioactive composite hydrogels as <scp>3D</scp> mesenchymal stem cell encapsulation environment for bone tissue engineering: in vitro and in vivo studies

Murat Taner Vurat, Mahmut Parmaksız, Ayşe Eser Elçin, Yaşar Murat Elçin

2022Journal of Biomedical Materials Research Part A15 citationsDOI

Abstract

Although decellularized bone matrix (DBM) has often been used in scaffold form for osteogenic applications, its use as a stem cell encapsulation matrix adaptable to surgical shaping procedures has been neglected. This study aimed to investigate the feasibility of utilizing solubilized DBM and nanohydroxyapatite (nHAp)-incorporated DBM hydrogels as encapsulation matrix for bone marrow-derived MSCs (BM-MSCs). First, DBM and DBM/nHAp hydrogels were assessed by physical, chemical, turbidimetric, thermal, and mechanical methods; then, in vitro cytocompatibility and in vitro hemocompatibility were investigated. An in vivo study was performed to evaluate the osteogenic properties of hydrogels alone or with BM-MSCs encapsulated in them. The findings revealed that hydrogels retained high levels of collagen and glycosaminoglycans after successful decellularization. They were found to be cytocompatible and hemocompatible in vitro, and were able to gel with sufficient mechanical stability at physiological temperature. BM-MSCs survived in culture for at least 2 weeks as metabolically active when encapsulated in both DBM and DBM/nHAp. Preliminary in vivo study showed that DBM-nHAp has higher osteogenicity than DBM. Moreover, BM-MSC encapsulated DMB/nHAp showed predominant bone-like tissue formation at 30 days in the rat ectopic site compared to its cell-free form.

Topics & Concepts

Self-healing hydrogelsDecellularizationMesenchymal stem celldBmIn vivoMaterials scienceBiomedical engineeringDemineralized bone matrixTissue engineeringIn vitroCell encapsulationExtracellular matrixScaffoldGlycosaminoglycanBiophysicsCell biologyChemistryMedicineBiochemistryBiologyPolymer chemistryBiotechnologyCMOSOptoelectronicsAmplifierBone Tissue Engineering MaterialsTissue Engineering and Regenerative MedicineElectrospun Nanofibers in Biomedical Applications
Bioactive composite hydrogels as <scp>3D</scp> mesenchymal stem cell encapsulation environment for bone tissue engineering: in vitro and in vivo studies | Litcius