表面全氟烷基链分离:减少医用级聚甲基丙烯酸甲酯中钙沉积的工具

Baljit Ghatora, P. Foot, S. Barton, R. Thatti, A. Papagni, L. Vaghi
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引用次数: 1

摘要

人工晶状体可以由各种各样的聚合物制造,但由于使用聚甲基丙烯酸甲酯(PMMA)的成本损失,它仍然是发展中国家使用的首选材料。然而,它的一个主要缺点是在一段时间内会在人工晶状体上形成含钙沉积物。为了阻止这种沉积,采用全氟烷基链(1,2,4-三氟-3-(C10F21CH2O)-7-(N,N)-二甲氨基吖啶)分离对医用级PMMA进行了表面改性。采用1% 1,2,4-三氟-3-(C10F21CH2O)-7-(N,N)-二甲基-氨基吖啶,采用薄膜浇铸和自旋涂膜两种方法对预成型PMMA圆盘进行了分离研究。将这两种方法与对照PMMA进行比较,以确定当浸入模拟的水溶液中时,哪种方法对含钙沉积物具有最佳的阻碍作用。利用扫描电子显微镜耦合能量表征表面;色散x射线分析表明,在两种方法中,全氟烷基链的表面偏析阻碍了钙化。这项初步研究表明,在可用于人工晶状体的生物材料的表面分离中使用全氟烷基链具有良好的结果。
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Surface Perfluoroalkyl Chains Segregation: A Tool for Reducing Calcium Deposits in Medical Grade Poly(Methyl Methacrylate)
Intraocular lenses can be manufactured from a wide variety of polymers, but due to the lost cost associated with the use of Poly(methyl methacrylate) (PMMA), it is still the preferred material used in the developing countries. However, a major drawback to its use is the build-up of calcium containing deposits that are formed on the intraocular lens over a period of time. In an attempt to hinder this deposition, surface modification of medical grade PMMA has been carried out using perfluoroalkyl chain (1,2,4-trifluoro-3-(C10F21CH2O)-7-(N,N)-dimethylaminoacridine) segregation. The segregation was explored using a 1% 1,2,4-trifluoro-3-(C10F21CH2O)-7-(N,N)-dimethyla-minoacridine in two methods: film casting and spin-coating, a thin film onto preformed PMMA discs. Both methods were compared against control PMMA to determine which method provided the best hindrance against calcium containing deposits when immersed in a simulated aqueous humour solution. Characterisation of the surface using scanning electron microscopy coupled with energy; dispersive x-ray analysis indicated that the surface segregation of perfluoroalkyl chains had hindered calcification in both methods. This pleminary research shows promising results of employing perfluoroalkyl chains in the surface segregation of biomaterials that can be employed in intraocular lenses.
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