通过火花烧结制备的多孔镁结构上的生物相容性混合表面层

Biocompatible Hybrid Surface Layers on Porous Magnesium Structures Fabricated by Spark Sintering.

作者信息

Nadaraia Konstantine V, Golysheva Anastasia A, Belov Evgeniy A, Lyapin Dmitry A, Gerasimenko Mariia S, Nadaraia Maria A, Pleshkova Arina I, Imshinetskiy Igor M, Shichalin Oleg O, Belov Anton A, Papynov Eugeniy K, Atarshchikov Sergey S, Mashtalyar Dmitry V

机构信息

Institute of Chemistry FEB RAS, 159 Pr. 100-letiya Vladivostoka, Vladivostok 690022, Russia.

Far Eastern Federal University, 10 Ajax Bay, Russky Island, Vladivostok 690922, Russia.

出版信息

J Funct Biomater. 2025 Jul 22;16(8):269. doi: 10.3390/jfb16080269.

DOI:10.3390/jfb16080269

PMID:40863289

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12387148/

Abstract

In this study, 3D Mg scaffolds were obtained by the spark plasma sintering (SPS), and a calcium phosphate coating was then obtained on the samples by the plasma electrolytic oxidation. A hybrid coating with vancomycin, zoledronic acid, and menaquinone MK-7 was formed to improve biocompatibility. The mechanical properties of the formed specimens were studied. According to XRD, XRF, SEM, EDS, and OSP studies obtained scaffolds have developed morphology and contain hydroxyapatite as well as bioactive substances. Formation of coatings improves the wettability of samples (contact angle decreases from 123.8 ± 3.1° to 26.9 ± 4.1°) and increases the surface roughness by more than 3 times. This makes them promising for use as a new generation of implantation materials. The results are important for the development of personalized implants with improved functional characteristics.

摘要

在本研究中，通过放电等离子体烧结（SPS）获得了三维镁支架，然后通过等离子体电解氧化在样品上获得了磷酸钙涂层。形成了含有万古霉素、唑来膦酸和甲萘醌MK-7的混合涂层以提高生物相容性。研究了所形成试样的力学性能。根据X射线衍射（XRD）、X射线荧光光谱（XRF）、扫描电子显微镜（SEM）、能谱分析（EDS）和开路电位（OSP）研究，所获得的支架具有发达的形态，并且含有羟基磷灰石以及生物活性物质。涂层的形成改善了样品的润湿性（接触角从123.8±3.1°降低至26.9±4.1°），并且使表面粗糙度增加了3倍以上。这使得它们有望用作新一代植入材料。这些结果对于开发具有改善功能特性的个性化植入物具有重要意义。

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通过火花烧结制备的多孔镁结构上的生物相容性混合表面层

Biocompatible Hybrid Surface Layers on Porous Magnesium Structures Fabricated by Spark Sintering.

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