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Influence of several biodegradable components added to pure and nanosilver-doped PMMA bone cements on its biological and mechanical properties

多孔性 生物相容性 材料科学 聚己二酮 细菌纤维素 润湿 壳聚糖 复合数 纤维素 复合材料 化学工程 冶金 工程类
作者
Marcin Wekwejt,Marta Michalska‐Sionkowska,Michał Bartmański,Małgorzata Nadolska,Krzysztof Łukowicz,Anna Pałubicka,Anna M. Osyczka,Andrzej Zieliński
出处
期刊:Materials Science and Engineering: C [Elsevier BV]
卷期号:117: 111286-111286 被引量:41
标识
DOI:10.1016/j.msec.2020.111286
摘要

Acrylic bone cements (BC) are wildly used in medicine. Despite favorable mechanical properties, processability and inject capability, BC lack bioactivity. To overcome this, we investigated the effects of selected biodegradable additives to create a partially-degradable BC and also we evaluated its combination with nanosilver (AgNp). We hypothesized that using above strategies it would be possible to obtain bioactive BC. The Cemex was used as the base material, modified at 2.5, 5 or 10 wt% with either cellulose, chitosan, magnesium, polydioxanone or tricalcium-phosphate. The resulted modified BC was examined for surface morphology, wettability, porosity, mechanical and nanomechanical properties and cytocompatibility. The composite BC doped with AgNp was also examined for its release and antibacterial properties. The results showed that it is possible to create modified cement and all studied modifiers increased its porosity. Applying the additives slightly decreased BC wettability and mechanical properties, but the positive effect of the additives was observed in nanomechanical research. The relatively poor cytocompatibility of modified BC was attributed to the unreacted monomer release, except for polydioxanone modification which increased cells viability. Furthermore, all additives facilitated AgNp release and increased BC antibacterial effectiveness. Our present studies suggest the optimal content of biodegradable component for BC is 5 wt%. At this content, an improvement in BC porosity is achieved without significant deterioration of BC physical and mechanical properties. Polydioxanone and cellulose seem to be the most promising additives that improve porosity and antibacterial properties of antibiotic or nanosilver-loaded BC. Partially-degradable BC may be a good strategy to improve their antibacterial effectiveness, but some caution is still required regarding their cytocompatibility. The lack of bone cement bioactivity is the main limitation of its effectiveness in medicine. To overcome this, we have created composite cements with partially-degradable properties. We also modified these cements with nanosilver to provide antibacterial properties. We examined five various additives at three different contents to modify a selected bone cement. Our results broaden the knowledge about potential modifiers and properties of composite cements. We selected the optimal content and the most promising additives, and showed that the combination of these additives with nanosilver would increase cements` antibacterial effectiveness. Such modified cements may be a new solution for medical applications. • The partially-degradable BC with/without AgNPs was prepared using different modifiers: Cell, Chit, Mg, PDO and TCP. • The optimal content of additives is 5 wt% and it improves BC porosity without significant deterioration of its properties. • Higher content of additives may deteriorate mechanical properties of BC and decrease its cytocompatibility. • The addition of biodegradable components to antibiotic or nanosilver-loaded BC improved their antibacterial efficiency. • Polydioxanone and cellulose seems to be the most promising additives to obtain time-varying porosity of BC.

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