羟基磷灰石纳米纤维和磷酸镁纳米片增强聚甲基丙烯酸甲酯纳米复合材料的力学性能及细胞相容性优化

Optimization of the Mechanical Properties and the Cytocompatibility for the PMMA Nanocomposites Reinforced with the Hydroxyapatite Nanofibers and the Magnesium Phosphate Nanosheets.

作者信息

Shirdar Mostafa Rezazadeh, Taheri Mohammad Mahdi, Qi Mei-Li, Gohery Scott, Farajpour Nasim, Narayanan Surya, Foroozan Tara, Sharifi-Asl Soroosh, Shahbazian-Yassar Reza, Shokuhfar Tolou

机构信息

Department of Bioengineering, University of Illinois at Chicago, Chicago, IL 60607, USA.

School of Transportation Civil Engineering, Shandong Jiaotong University, Jinan, 250357, China.

出版信息

Materials (Basel). 2021 Oct 8;14(19):5893. doi: 10.3390/ma14195893.

DOI:10.3390/ma14195893

PMID:34640291

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8510305/

Abstract

Commercial poly methyl methacrylate (PMMA)-based cement is currently used in the field of orthopedics. However, it suffers from lack of bioactivity, mechanical weakness, and monomer toxicity. In this study, a PMMA-based cement nanocomposite reinforced with hydroxyapatite (HA) nanofibers and two-dimensional (2D) magnesium phosphate MgP nanosheets was synthesized and optimized in terms of mechanical property and cytocompatibility. The HA nanofibers and the MgP nanosheets were synthesized using a hydrothermal homogeneous precipitation method and tuning the crystallization of the sodium-magnesium-phosphate ternary system, respectively. Compressive strength and MTT assay tests were conducted to evaluate the mechanical property and the cytocompatibility of the PMMA-HA-MgP nanocomposites prepared at different ratios of HA and MgP. To optimize the developed nanocomposites, the standard response surface methodology (RSM) design known as the central composite design (CCD) was employed. Two regression models generated by CCD were analyzed and compared with the experimental results, and good agreement was observed. Statistical analysis revealed the significance of both factors, namely, the HA nanofibers and the MgP nanosheets, in improving the compressive strength and cell viability of the PMMA-MgP-HA nanocomposite. Finally, it was demonstrated that the HA nanofibers of 7.5% wt and the MgP nanosheets of 6.12% wt result in the PMMA-HA-MgP nanocomposite with the optimum compressive strength and cell viability.

摘要

目前，商业聚甲基丙烯酸甲酯（PMMA）基骨水泥应用于骨科领域。然而，它存在生物活性不足、机械性能差和单体毒性等问题。在本研究中，合成了一种用羟基磷灰石（HA）纳米纤维和二维（2D）磷酸镁（MgP）纳米片增强的PMMA基骨水泥纳米复合材料，并在机械性能和细胞相容性方面进行了优化。HA纳米纤维和MgP纳米片分别采用水热均匀沉淀法和调节钠-镁-磷酸盐三元体系的结晶来合成。进行了抗压强度和MTT试验，以评估在不同HA和MgP比例下制备的PMMA-HA-MgP纳米复合材料的机械性能和细胞相容性。为了优化所开发的纳米复合材料，采用了称为中心复合设计（CCD）的标准响应面方法（RSM）设计。分析了由CCD生成的两个回归模型，并与实验结果进行比较，观察到良好的一致性。统计分析表明，HA纳米纤维和MgP纳米片这两个因素对于提高PMMA-MgP-HA纳米复合材料的抗压强度和细胞活力具有重要意义。最后，证明7.5%重量的HA纳米纤维和6.12%重量的MgP纳米片可使PMMA-HA-MgP纳米复合材料具有最佳的抗压强度和细胞活力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2f96/8510305/3b41fc39fce6/materials-14-05893-g001.jpg

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Optimization of the Mechanical Properties and the Cytocompatibility for the PMMA Nanocomposites Reinforced with the Hydroxyapatite Nanofibers and the Magnesium Phosphate Nanosheets.羟基磷灰石纳米纤维和磷酸镁纳米片增强聚甲基丙烯酸甲酯纳米复合材料的力学性能及细胞相容性优化

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羟基磷灰石纳米纤维和磷酸镁纳米片增强聚甲基丙烯酸甲酯纳米复合材料的力学性能及细胞相容性优化

Optimization of the Mechanical Properties and the Cytocompatibility for the PMMA Nanocomposites Reinforced with the Hydroxyapatite Nanofibers and the Magnesium Phosphate Nanosheets.

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