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Alginate/laponite hydrogel microspheres co-encapsulating dental pulp stem cells and VEGF for endodontic regeneration

牙髓干细胞 材料科学 微球 再生(生物学) 牙髓(牙) 盖髓 生物医学工程 干细胞 自愈水凝胶 牙科 复合材料 化学工程 高分子化学 牙本质 医学 细胞生物学 工程类 生物 遗传学
作者
Ruitao Zhang,Xie Li,Hao Wu,Ting Yang,Qingyuan Zhang,Yuan Tian,Yuangang Liu,Xue Han,Weihua Guo,Min He,Suru Liu,Weidong Tian
出处
期刊:Acta Biomaterialia [Elsevier BV]
卷期号:113: 305-316 被引量:175
标识
DOI:10.1016/j.actbio.2020.07.012
摘要

Considering the complicated and irregular anatomical structure of root canal systems, injectable microspheres have received considerable attention as cell carriers in endodontic regeneration. Herein, we developed injectable hybrid RGD-alginate/laponite (RGD-Alg/Lap) hydrogel microspheres, co-encapsulating human dental pulp stem cells (hDPSCs) and vascular endothelial growth factor (VEGF). These microspheres were prepared by the electrostatic microdroplet method with an average size of 350~450 μm. By adjusting the content of laponite, the rheological properties and the degradation rate of the microspheres in vitro could be conditioned. The release of VEGF from the RGD-Alg/0.5%Lap microspheres was in a sustained manner for 28 days while the bioactivity of VEGF was preserved. In addition, the encapsulated hDPSCs were evenly distributed in microspheres with a cell viability exceeding 85%. The deposition of abundant extracellular matrix such as fibronectin (FN) and collagen type I (Col-I) was shown in microspheres after 7 days. The laponite in the system significantly up-regulated the expression of odontogenic-related genes of hDPSCs at day 7. Furthermore, after subcutaneous implantation with tooth slices in a nude mouse model for 1 month, the hDPSCs-laden RGD-Alg/0.5%Lap+VEGF microspheres significantly promoted the regeneration of pulp-like tissues as well as the formation of new micro-vessels. These results demonstrated the great potential of laponite-enhanced hydrogel microspheres in vascularized dental pulp regeneration. STATEMENT OF SIGNIFICANCE: Injectable cell-laden microspheres have recently gained great attention in endodontic regeneration. Here we first developed hybrid alginate/laponite hydrogel microspheres (size about 350~450 μm) by electrostatic microdroplet method, which exhibited tunability in mechanical property and sustained release ability. The incorporation of laponite and the sustained release of VEGF supported not only dental pulp stem cells differentiation in vitro but neotissue regeneration in vivo. These features combined with the simplicity in preparation, made the microspheres ideally suited to simultaneous cells and growth factors delivery in dental pulp regeneration and even other tissue regeneration application.
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