Preparation and in-vitro evaluation of Fe2O3-doped DP-bioglass in combination with 3D-printing and selective laser sintering process (3DP-SLS) for alveolar bone augmentation

Chih Ying Chi, Ching Yun Chen, Jian Yuan Huang, Che Yung Kuan, Yu Ying Lin, Chi Han Li, Chun Chen Yang, Feng Huei Lin

研究成果: 雜誌貢獻期刊論文同行評審

17 引文 斯高帕斯(Scopus)

摘要

Severe periodontal disease can cause damage and atrophy of alveolar bone. Presently, Fe2O3-doped DP-bioglass (DPF-bioglass) was prepared and combined with a 3D-printing and selective laser sintering (3DP-SLS) process to prepare a porous scaffold for alveolar bone augmentation of dental implants. Addition of 2% Fe2O3 effectively lowered the melting point and darkened the color to absorb the laser energy and increased the sintering efficiency. X-ray diffraction, optical microscopy (OM), energy dispersive spectrophotometry, and differential thermal analysis were used to characterize the crystal structure, color/darkness, morphology, qualitative chemical composition, and thermal stability, respectively, for the synthesized DPF-bioglass. After the human fetal osteoblasts (hFOB 1.19 cells) were cultured with the extraction medium, cell morphology was observed by OM. The WST-1 and lactate dehydrogenase (LDH) assays were used to evaluate the cytotoxicity of the DPF-bioglass. This bioglass was then prepared as an alveolar bone substitute (ABS) by the 3DP-SLS process and cells were cultured on the scaffold. The cell morphology was revealed by scanning electron microscopy (SEM). Cell survival rate and cells in early apoptosis were examined using live/dead and JC-1 staining, respectively. The gene expression of Runx2, type I collagen, and alkaline phosphatase (ALP) were analyzed by qPCR to check early osteogenesis, extracellular matrix secretion, and mineralization, respectively. Xylenol orange (XO) staining was used to observe the mineralization of calcium phosphate deposition. The improvements in cell attachment, proliferation, and biomineralization were further confirmed in terms of potential bone regeneration in vitro. The developed ABS was not cytotoxic to human osteoblasts in the WST-1, LDH, live/dead and JC-1 stain. The developed ABS gradually degraded and constantly released Ca+2, PO4−3, Fe+3, and Si+4 in the physiological environment. SEM and XO staining revealed that the released ions promoted bone formation and mineralization. Osteogenesis was also enhanced, as judged by early induction of the gene expression.

原文???core.languages.en_GB???
頁(從 - 到)12725-12734
頁數10
期刊Ceramics International
47
發行號9
DOIs
出版狀態已出版 - 1 5月 2021

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