用于整形外科应用的具有PLA/HA/TiO2聚合物陶瓷涂层的可生物降解Zn-1Mg-1Mn和Zn-1Mg1Mn--1HA复合材料的评估。

N. Anand, K. Pal
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引用次数: 3

摘要

锌是一种很有前途的可生物降解金属,具有比镁优异的生物相容性和耐腐蚀性,是一种具有巨大潜力的生物可吸收植入材料。然而,其机械强度和硬度值较低,极大地限制了其应用。此外,加入合金元素通常会增强其机械性能。在本研究中,研究了合金成分Mn和HA对Zn-Mg复合材料的影响,以及聚合物陶瓷纳米纤维涂层对复合材料样品的影响。结果表明,目前研究的样品主要由初级Zn基体和次级相Mg2Zn11组成。制备的样品显示出非常高的压缩屈服强度(CYS228MPa)和硬度(83HV)。铸态Zn-1Mg-1Mn-1HA样品的腐蚀速率值与铸态Zn-1-Mg-1Mn样品相比更高,但在PLA/HA/TiO2的聚合物陶瓷纳米纤维涂层形成后,该值降低到更显著的程度,并在电化学测试中从0.01892mm/年达到0.01484mm/年的值。此外,包被和未包被的样品对两种样品都表现出优异的血液相容性,但包被的Zn-1Mg-1Mn-1HA样品获得了最小值(2.251%)。在包被的Zn-1Mg-1Mn-1HA样品的不同稀释提取物(25%和50%提取物)中培养的MG63细胞的活力达到了大于90%的值,其对于生物医学应用没有显示出可能的细胞毒性。
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Evaluation of biodegradable Zn-1Mg-1Mn and Zn-1Mg-1Mn-1HA composites with a polymer-ceramics coating of PLA/HA/TiO2 for orthopaedic applications.
Zn is a promising biodegradable metal that shows huge potential as bioresorbable implant material as it possesses outstanding biocompatibility and high corrosion resistance than Mg. However, the low value of mechanical strength and hardness has hugely restricted its application. Moreover, incorporating alloying elements have typically magnified its mechanical properties. In the current study, the effect of the alloying component Mn and HA on the Zn-Mg composite and also the effect of polymer-ceramics nanofiber coating on the composite sample was studied. The result shows that the current studied samples were mainly comprised of a primary Zn matrix and a secondary phase of Mg2Zn11. The prepared sample shows very high compressive yield strength (CYS 228 MPa) and hardness (83 HV). The value of corrosion rates of the as-cast Zn-1Mg-1Mn-1HA sample was higher in comparison to that of the as-cast Zn-1Mg-1Mn sample, but after the polymer-ceramics nanofiber coating formation of PLA/HA/TiO2, the values were reduced to a more significant extent and achieved values of 0.01484 mm/year from 0.01892 mm/year in electrochemical tests. Moreover, the coated and uncoated sample shows outstanding hemocompatibility for both samples, but the minimum value is obtained for coated Zn-1Mg-1Mn-1HA sample (2.251%). The viability of MG63 cells cultured in different diluted extracts (25% and 50% extract) of the coated Zn-1Mg-1Mn-1HA sample reached a value greater than 90%, which displayed no possible cytotoxicity for biomedical applications.
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