对骨科应用中的生物医学镁合金和表面涂层进行系统回顾和网络元分析。

IF 1.7 4区 教育学 Q2 EDUCATION & EDUCATIONAL RESEARCH Journal of Moral Education Pub Date : 2022-03-31 eCollection Date: 2022-01-01 DOI:10.1155/2022/4529520
XinYue Lu, HongXin Cai, Yu Ru Li, Xinru Zheng, Jiahao Yun, Wenhui Li, XiaoYu Geng, Jae-Sung Kwon, Heng Bo Jiang
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引用次数: 0

摘要

镁合金作为理想的骨植入材料具有广阔的应用前景。然而,镁合金较差的耐腐蚀性限制了其在骨科临床上的应用。表面改性可提高镁的耐腐蚀性。磷酸钙(Ca-P)涂层、微弧氧化(MAO)处理和氟化物(FLU)处理等转化涂层已在体内研究中进行了广泛调查。本系统综述和网络荟萃分析比较了不同转换涂层对骨科应用中骨修复、材料特性和全身宿主反应的影响。利用 PICOS 模型,确定了生物可降解镁及其合金体内研究的纳入标准。使用了四个数据库。使用标准差和加权平均差以及 95% 的置信区间来分析新骨形成和降解率。创建了网络结构和森林图,并估算了排序概率。使用 SYRCLE、CERQual 和 GRADE 工具评估了偏倚风险和证据质量。在定性分析中,共选取了 43 项研究,不同文章对每项结果指标的评估并不完全一致。在定量分析中,对 21 篇文章进行了网络荟萃分析,其中 16 篇涉及种植体退化,8 篇涉及新骨形成。此外,SUCRA 显示,Ca-P 涂层的抗腐蚀性最高,其次是 FLU 处理。MAO 的新骨形成能力最强,其次是 Ca-P 涂层。Ca-P涂层的整体性能最高。总之,与裸镁相比,涂层镁能更好地促进新骨形成,并具有相当好的生物相容性。Ca-P涂层镁和MAO涂层镁分别在显著促进耐腐蚀性和骨再生方面具有最大的潜力。这项研究的结果将为复合涂层的研究提供理论依据,并为镁骨植入物在骨科领域的应用提供指导。
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A Systematic Review and Network Meta-Analysis of Biomedical Mg Alloy and Surface Coatings in Orthopedic Application.

Magnesium alloys have great application prospects as ideal bone implant materials. However, their poor corrosion resistance limits their clinical orthopedic application. Surface modification promotes the corrosion resistance of magnesium. Conversion coatings, such as calcium phosphate (Ca-P) coating, microarc oxidation (MAO) treatment, and fluoride (FLU) treatment, have been extensively investigated in in vivo studies. This systematic review and network meta-analysis compared the influence of different conversion coatings on bone repair, material properties, and systemic host response in orthopedic applications. Using the PICOS model, the inclusion criteria for biodegradable magnesium and its alloys were determined for in vivo studies. Four databases were used. The standard and weight mean differences with 95% confidence intervals were used to analyze new bone formation and degradation rate. Network structure and forest plots were created, and ranking probabilities were estimated. The risk of bias and quality of evidence were assessed using SYRCLE, CERQual, and GRADE tools. In the qualitative analysis, 43 studies were selected, and the evaluation of each outcome indicator was not entirely consistent from article to article. In the quantitative analysis, 21 articles were subjected to network meta-analysis, with 16 articles on implant degradation and 8 articles for new bone formation. Additionally, SUCRA indicated that Ca-P coating exhibited the highest corrosion resistance, followed by FLU treatment. MAO demonstrated the best capability for new bone formation, followed by Ca-P coating. Ca-P coating exhibited the highest overall performance. To conclude, coated Mg can promote better new bone formation than bare Mg and has considerable biocompatibility. Ca-P-coated Mg and MAO-coated Mg have the greatest potential to significantly promote corrosion resistance and bone regeneration, respectively. The findings of this study will provide a theoretical basis for the investigation of composite coatings and guidance for the orthopedic application of Mg bone implants.

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来源期刊
Journal of Moral Education
Journal of Moral Education EDUCATION & EDUCATIONAL RESEARCH-
CiteScore
3.90
自引率
11.80%
发文量
24
期刊介绍: The Journal of Moral Education (a Charitable Company Limited by Guarantee) provides a unique interdisciplinary forum for consideration of all aspects of moral education and development across the lifespan. It contains philosophical analyses, reports of empirical research and evaluation of educational strategies which address a range of value issues and the process of valuing, in theory and practice, and also at the social and individual level. The journal regularly includes country based state-of-the-art papers on moral education and publishes special issues on particular topics.
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