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Integrated Piezoelectric/Conductive Composite Cryogel Creates Electroactive Microenvironment for Enhanced Bone Regeneration

Tianyi Zheng, Yanyun Pang, Daixing Zhang, Yue Wang, Xu Zhang, Huijie Leng, Yingjie Yu, Xiaoping Yang, Qing Cai

2023Advanced Healthcare Materials47 citationsDOI

Abstract

Abstract Natural bone tissue possesses inherent electrophysiological characteristics, displaying conductivity and piezoelectricity simultaneously; hence, the reconstruction of local electrical microenvironment at defect site provides an effective strategy to enhance osteogenesis. Herein, a composite cryogel‐type scaffold (referred to as Gel‐PD‐CMBT) is developed for bone regeneration, utilizing gelatin (Gel) in combination with a conductive poly(ethylene dioxythiophene)/polystyrene sulfonate matrix and Ca/Mn co‐doped barium titanate (CMBT) nanofibers as the piezoelectric filler. The incorporation of these components results in the formation of an integrated piezoelectric/conductive network within the scaffold, facilitating charge migration and yielding a conductivity of 0.59 S cm −1 . This conductive scaffold creates a promising electroactive microenvironment, which is capable of up‐regulating biological responses. Furthermore, the interconnected porous structure of the Gel‐PD‐CMBT scaffold not only provides mechanical stability but also offered ample space for cellular and tissue ingrowth. This Gel‐PD‐CMBT scaffold demonstrates a greater capacity to promote cellular osteogenic differentiation in vitro and neo‐bone formation in vivo. In summary, the Gel‐PD‐CMBT scaffold, with its integrated piezoelectricity and conductivity, effectively restores the local electroactive microenvironment, offering an ideal platform for the regeneration of electrophysiological bone tissue.

Topics & Concepts

Materials scienceScaffoldComposite numberPiezoelectricityRegeneration (biology)NanofiberGelatinElectrical conductorBiomedical engineeringNanotechnologyComposite materialChemistryCell biologyBiochemistryMedicineBiologyBone Tissue Engineering MaterialsGraphene and Nanomaterials Applications3D Printing in Biomedical Research
Integrated Piezoelectric/Conductive Composite Cryogel Creates Electroactive Microenvironment for Enhanced Bone Regeneration | Litcius