In vitro hemocompatibility and corrosion behavior of new Zr-binary alloys in whole human blood

Georgeta Totea, D. Ionita, I. Demetrescu, M. Mitache
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引用次数: 39

Abstract

AbstractThe aim of this study is to evaluate the accuracy of three binary alloys’ composition, and their biocompatibility. Depending on the intended use of the medical devices made from these materials, dynamic or static tests should be performed. We have chosen static tests as we thought they may be used as knee or hip replacement, and not as cardiac valves.Three binary alloys ( Zr10Nb, Zr2.5Nb and Zr12Ta) were obtained from high purity powders (>99.9%), using an induction furnace first, and an electric arc furnace for a perfect homogenization. Their final composition was verified with a XRF analyzer-INNOV-X.Hemolysis tests can determine the degree of red blood cells lysis and the release of hemoglobin. The released hemoglobin quantity was extremely small, under 2%, in all cases, and the coagulation tests showed no risk for thrombosis. The electrochemical behavior was also studied in biological fluid, human female serum, and showed a low corrosion rate.The obtained alloys do not cause hemolysis, so they are hemocompatible with all blood types.
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新型锆二元合金在人全血中的体外血液相容性及腐蚀行为
摘要本研究的目的是评价三种二元合金成分的准确性及其生物相容性。根据由这些材料制成的医疗器械的预期用途,应进行动态或静态测试。我们选择了静态测试,因为我们认为它们可能用于膝关节或髋关节置换术,而不是心脏瓣膜。采用感应炉和电弧炉进行均匀化处理,得到了Zr10Nb、Zr2.5Nb和Zr12Ta三种高纯度合金(>99.9%)。用XRF分析仪- innova - x验证了它们的最终组成。溶血试验可以测定红细胞的溶解程度和血红蛋白的释放。在所有病例中,血红蛋白释放量极低,低于2%,凝血试验显示无血栓形成风险。在生物液、人女性血清中的电化学行为也进行了研究,结果表明其腐蚀速率较低。所获得的合金不会引起溶血,因此它们与所有血型的血液相容。
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