i-PRF、A-PRF+ 和 EMD 对钛上成骨细胞成骨潜能的影响

Liza Lima Ramenzoni, Jothi Varghese, Patrick Roger Schmidlin, Shubhankar Mehrotra
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引用次数: 0

摘要

研究目的本研究评估了三种已知具有骨诱导潜能的生物活性物质在先前净化过的钛盘(Ti)上的作用:粗糙和光滑的钛表面被多菌种生物膜污染,并用壳聚糖刷进行清洁。在成骨细胞播种前,用可注射的富血小板纤维蛋白(i-PRF)、高级富血小板纤维蛋白(A-PRF+)或釉基质衍生物(EMDs)处理钛盘:结果:对生物相容性、粘附性、迁移性以及runt相关转录因子2(RUNX2)、Ⅰ型胶原蛋白α2(COL1a2)、碱性磷酸酶(ALP)、骨钙素(OC)和骨连蛋白(ON)的基因表达进行了研究。所有测试的生物制剂都同样提高了细胞活力。具体而言,在 i-PRF 和 EMD 处理过的表面上播种的成骨细胞显示出粘附性和迁移性的改善,ALP、OC、ON、RUNX-2 和 COL1a2 mRNA 水平显著增加达 2.8 倍(p 结论:i-PRF 和 EMD 具有有益的生物活性特性,可增强组织愈合并促进彻底灭菌表面的再生。生物活性材料可能会影响种植体的再骨结合过程,这需要进行更多的研究,因为在临床条件下对受影响表面进行消毒仍然是不可靠的,也是最大的挑战之一。
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Effects of i-PRF, A-PRF+, and EMD on Osteogenic Potential of Osteoblasts on Titanium.

Objective: The study evaluates three biologically active substances with known bone-inductive potential on previously decontaminated titanium (Ti) discs.

Material and methods: Rough and smooth Ti surfaces were contaminated with a multispecies biofilm and cleaned with a chitosan brush. Discs were treated either with injectable-platelet-rich fibrin (i-PRF), advanced platelet-rich fibrin (A-PRF+), or enamel matrix derivatives (EMDs) before osteoblast seeding.

Results: Biocompatibility, adhesion, migration, and gene expression of runt-related transcription factor 2 (RUNX2), collagen Type I Alpha 2 (COL1a2), alkaline phosphatase (ALP), osteocalcin (OC), and osteonectin (ON) were performed. All the tested biologic agents similarly increased cell viability. Specifically, osteoblasts seeded over i-PRF and EMD-treated surfaces showed improvement in adhesion and migration and significantly increased ALP, OC, ON, RUNX-2, and COL1a2 mRNA levels up to 2.8 fold (p < 0.05) with no differences between Ti surfaces.

Conclusions: i-PRF and EMD possess beneficial bioactive properties that enhance tissue healing and promote regeneration on thoroughly sterilized surfaces. Biologically active materials may hold the potential to influence the process of implant re-osseointegration, which warrants more research since sterilization of the affected surfaces under clinical conditions is still not reliably possible and remains one of the greatest challenges.

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