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The Development of a Dental Light Curable Prfe-Loaded Hydrogel As a Potential Scaffold for Pulp-Dentine Complex Regeneration: An in Vitro Study Publisher Pubmed

Summary: New dental gel with PRFe offers enhanced tooth repair and regeneration, using natural materials that harden with dental light. This innovation promises new product lines and market expansion for dental product manufacturers.

Noohi P1 ; Abdekhodaie MJ1, 2 ; Saadatmand M1 ; Nekoofar MH3, 4, 5 ; Dummer PMH6
Authors
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Authors Affiliations
  1. 1. Department of Chemical and Petroleum Engineering, Sharif University of Technology, Tehran, Iran
  2. 2. Environmental and Applied Science Management, Yeates School of Graduate Studies, Toronto Metropolitan University, Toronto, Canada
  3. 3. Department of Endodontics, School of Dentistry, Tehran University of Medical Sciences, Tehran, Iran
  4. 4. Department of Tissue Engineering, School of Advanced Technologies in Medicine, Tehran University of Medical Sciences, Tehran, Iran
  5. 5. Department of Endodontics, Bahcesehir University School of Dentistry, Istanbul, Turkey
  6. 6. School of Dentistry, College of Biomedical and Life Sciences, Cardiff University, Cardiff, United Kingdom

Source: International Endodontic Journal Published:2023


Abstract

Aim: The study aimed to develop a bicomponent bioactive hydrogel formed in situ and enriched with an extract of platelet-rich fibrin (PRFe) and to assess its potential for use in pulp-dentine complex tissue engineering via cell homing. Methodology: A bicomponent hydrogel based on photo-activated naturally derived polymers, methacrylated chitosan (ChitMA) and methacrylated collagen (ColMA), plus PRFe was fabricated. The optimized formulation of PRFe-loaded bicomponent hydrogel was determined by analysing the mechanical strength, swelling ratio and cell viability simultaneously. The physical, mechanical, rheological and morphological properties of the optimal hydrogel with and without PRFe were determined. Additionally, MTT, phalloidin/DAPI and live/dead assays were carried out to compare the viability, cytoskeletal morphology and migration ability of stem cells from the apical papilla (SCAP) within the developed hydrogels with and without PRFe, respectively. To further investigate the effect of PRFe on the differentiation of encapsulated SCAP, alizarin red S staining, RT-PCR analysis and immunohistochemical detection were performed. Statistical significance was established at p <.05. Results: The optimized formulation of PRFe-loaded bicomponent hydrogel can be rapidly photocrosslinked using available dental light curing units. Compared to bicomponent hydrogels without PRFe, the PRFe-loaded hydrogel exhibited greater viscoelasticity and higher cytocompatibility to SCAP. Moreover, it promoted cell proliferation and migration in vitro. It also supported the odontogenic differentiation of SCAP as evidenced by its promotion of biomineralization and upregulating the gene expression for ALP, COL I, DSPP and DMP1 as well as facilitated angiogenesis by enhancing VEGFA gene expression. Conclusions: The new PRFe-loaded ChitMA/ColMA hydrogel developed within this study fulfils the criteria of injectability, cytocompatibility, chemoattractivity and bioactivity to promote odontogenic differentiation, which are fundamental requirements for scaffolds used in pulp-dentine complex regeneration via cell-homing approaches. © 2022 British Endodontic Society. Published by John Wiley & Sons Ltd.
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