Multifunctional Ca–Zn–Si-based micro-nano spheres with anti-infective, anti-inflammatory, and dentin regenerative properties for pulp capping application

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Author(s)
Li, Zhengmao
Xie, Kunke
Yang, Shuang
Yu, Ting
Xiao, Yin
Zhou, Yinghong
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2021
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Abstract

While pulp capping using a variety of materials has been applied clinically to preserve the health and vitality of the dental pulp and induce dentin repair no material meets all the anti-infection, anti-inflammation, and promoting pulp tissue regeneration criteria. Micro-nano materials of bioactive glasses (BG) with the biocompatibility and osteogenesis-promoting properties were developed for this study using Zn-doped bioactive glass (BGz) micro-nano spheres for dental pulp capping to control infection and inflammation and promote tissue regeneration. Of three key findings, the co-culture ofPorphyromonas gingivalisshowed that the BGz had an excellent antibacterial effect, and after being stimulated with BGzin vitro, macrophages showed a significant decrease of pro-inflammatory M1 markers compared with the undoped BG group. It is also noted that the conditioned medium derived from BGz-stimulated macrophages could significantly promote mineralized dentin formation of dental pulp cells (DPCs). In rats, acute pulp restoration experiments proved that BGz used as a pulp capping agent had excellent dentin regenerative properties. This work may provide a novel strategy to promote osteo/dentinogenic differentiation through regulating early inflammation, with potential applications in pulp capping.

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Journal of Materials Chemistry B

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9

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39

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Macromolecular and materials chemistry

Biomedical engineering

Nanobiotechnology

Science & Technology

Technology

Materials Science, Biomaterials

Materials Science

MINERAL TRIOXIDE AGGREGATE

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Li, Z; Xie, K; Yang, S; Yu, T; Xiao, Y; Zhou, Y, Multifunctional Ca–Zn–Si-based micro-nano spheres with anti-infective, anti-inflammatory, and dentin regenerative properties for pulp capping application, Journal of Materials Chemistry B, 2021, 9 (39), pp. 8289-8299

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