用于电池包封的保形纳米薄改性聚电解质涂层。

L H Granicka, M Antosiak-Iwańska, E Godlewska, M Strawski, M Szklarczyk, B Maranowski, C Kowalewski, J Wiśniewsk
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引用次数: 7

摘要

将细胞包封在聚合物外壳中可以将生物材料与生产因子分离,这可能会在生物技术和生物医学上得到应用。利用LbL技术将人t淋巴细胞系Jurkat和大鼠胰岛包裹在生物素与亲和素复合物修饰的聚电解质外壳中,以改善细胞包膜,并产生引发特定生化反应的潜在能力。在8天的培养过程中,纳米薄修饰壳涂层可以维持被评估细胞的完整性和活力。不同的生物材料可能观察到不同的PE影响。胰岛的线粒体活性低于Jurkat细胞。然而,在培养过程中,用聚电解质修饰的膜覆盖细胞允许两种模型细胞类型的功能:10 μm白血病细胞或150 μm胰岛细胞。所施膜在培养期间保持了分子结构。结论是,应用改性膜构象可推荐用于生物医学用途的外壳涂层。
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Conformal nano-thin modified polyelectrolyte coatings for encapsulation of cells.

Encapsulation of cells in polymeric shells allows for separation of biological material from produced factors, which may find biotechnological and biomedical applications. Human T-lymphocyte cell line Jurkat as well as rat pancreatic islets were encapsulated using LbL technique within shells of polyelectrolyte modified by incorporation of biotin complexed with avidin to improve cell coating and to create the potential ability to elicit specific biochemical responses. The coating with nano-thin modified shells allowed for maintenance of the evaluated cells' integrity and viability during the 8-day culture. The different PE impact may be observed on different biological materials. The islets exhibited lower mitochondrial activity than the Jurkat cells. Nevertheless, coating of cells with polyelectrolyte modified membrane allowed for functioning of both model cell types: 10 μm leukemia cells or 150 μm islets during the culture. Applied membranes maintained the molecular structure during the culture period. The conclusion is that applied modified membrane conformation may be recommended for coating shells for biomedical purposes.

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