Development of novel hybrid nanomaterials with potential application in bone/dental tissue engineering: design, fabrication and characterization enriched-SAPO-34/CS/PANI scaffold.

IF 3.6 4区 医学 Q2 ENGINEERING, BIOMEDICAL
Golnaz Navidi, Saeideh Same, Maryam Allahvirdinesbat, Parvaneh Nakhostin Panahi, Kazem Dindar Safa
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引用次数: 0

Abstract

Fe-Ca-SAPO-34/CS/PANI, a novel hybrid bio-composite scaffold with potential application in dental tissue engineering, was prepared by freeze drying technique. The scaffold was characterized using FT-IR and SEM methods. The effects of PANI on the physicochemical properties of the Fe-Ca-SAPO-34/CS scaffold were investigated, including changes in swelling ratio, mechanical behavior, density, porosity, biodegradation, and biomineralization. Compared to the Fe-Ca-SAPO-34/CS scaffold, adding PANI decreased the pore size, porosity, swelling ratio, and biodegradation, while increasing the mechanical strength and biomineralization. Cell viability, cytotoxicity, and adhesion of human dental pulp stem cells (hDPSCs) on the scaffolds were investigated by MTT assay and SEM. The Fe-Ca-SAPO-34/CS/PANI scaffold promoted hDPSC proliferation and osteogenic differentiation compared to the Fe-Ca-SAPO-34/CS scaffold. Alizarin red staining, alkaline phosphatase activity, and qRT-PCR results revealed that Fe-Ca-SAPO-34/CS/PANI triggered osteoblast/odontoblast differentiation in hDPSCs through the up-regulation of osteogenic marker genes BGLAP, RUNX2, and SPARC. The significance of this study lies in developing a novel scaffold that synergistically combines the beneficial properties of Fe-Ca-SAPO-34, chitosan, and PANI to create an optimized microenvironment for dental tissue regeneration. These findings highlight the potential of the Fe-Ca-SAPO-34/CS/PANI scaffold as a promising biomaterial for dental tissue engineering applications, paving the way for future research and clinical translation in regenerative dentistry.

开发具有骨/牙组织工程应用潜力的新型混合纳米材料:富集-SAPO-34/CS/PANI 支架的设计、制造和表征。
通过冷冻干燥技术制备了一种新型混合生物复合材料支架--Fe-Ca-SAPO-34/CS/PANI,该支架有望应用于牙科组织工程。使用傅立叶变换红外光谱和扫描电镜方法对该支架进行了表征。研究了 PANI 对 Fe-Ca-SAPO-34/CS 支架理化性质的影响,包括膨胀率、力学行为、密度、孔隙率、生物降解和生物矿化的变化。与 Fe-Ca-SAPO-34/CS 支架相比,添加 PANI 会减小孔径、孔隙率、膨胀率和生物降解,同时增加机械强度和生物矿化。通过 MTT 试验和扫描电镜研究了人牙髓干细胞(hDPSCs)在支架上的细胞活力、细胞毒性和粘附性。与 Fe-Ca-SAPO-34/CS 支架相比,Fe-Ca-SAPO-34/CS/PANI 支架促进了 hDPSC 的增殖和成骨分化。茜素红染色、碱性磷酸酶活性和 qRT-PCR 结果表明,Fe-Ca-SAPO-34/CS/PANI 通过上调成骨标志基因 BGLAP、RUNX2 和 SPARC 触发了 hDPSC 的成骨细胞/骨细胞分化。本研究的意义在于开发了一种新型支架,它能协同结合 Fe-Ca-SAPO-34、壳聚糖和 PANI 的有益特性,为牙科组织再生创造优化的微环境。这些发现凸显了 Fe-Ca-SAPO-34/CS/PANI 支架作为一种有前途的生物材料在牙科组织工程应用中的潜力,为再生牙科的未来研究和临床转化铺平了道路。
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来源期刊
Journal of Biomaterials Science, Polymer Edition
Journal of Biomaterials Science, Polymer Edition 工程技术-材料科学:生物材料
CiteScore
7.10
自引率
5.60%
发文量
117
审稿时长
1.5 months
期刊介绍: The Journal of Biomaterials Science, Polymer Edition publishes fundamental research on the properties of polymeric biomaterials and the mechanisms of interaction between such biomaterials and living organisms, with special emphasis on the molecular and cellular levels. The scope of the journal includes polymers for drug delivery, tissue engineering, large molecules in living organisms like DNA, proteins and more. As such, the Journal of Biomaterials Science, Polymer Edition combines biomaterials applications in biomedical, pharmaceutical and biological fields.
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