生物纳米系统中蛋白质吸附和细胞粘附的精密控制技术

Technical Digest. MEMS 2001. 14th IEEE International Conference on Micro Electro Mechanical Systems (Cat. No.01CH37090) Pub Date : 2001-01-21 DOI:10.1109/MEMSYS.2001.906571

Y. Pan, Y. Hanein, D. Leach-Scampavia, K. Bohringer, B. Ratner, D. D. Denton

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引用次数: 15

摘要

研究了一种表面涂层技术，通过消除生物污染来提高设备的生物相容性，生物污染是蛋白质和细胞对表面的强但非特异性亲和力。这种涂层是一种保形的、薄的聚乙二醇类薄膜，沉积在四烯酰胺的辉光放电中。具有不同化学性质的底物被成功修饰，并表现出超低蛋白吸附和细胞附着。这种“隐形”或“无污垢”涂层也可以使用标准光刻工艺忠实地绘制图案。具有图案表面的蛋白质和细胞的相互作用仅限于蛋白质粘附结构域，因此在表面上产生蛋白质和细胞培养的异质模式。我们的技术的应用，如基于细胞的分析和微电极的潜在利益进行了讨论。

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A precision technology for controlling protein adsorption and cell adhesion in bioMEMS

A surface coating technique is investigated to enhance device biocompatibility by eliminating bio-fouling, the strong but non-specific affinity of proteins and cells to attach to surfaces. This coating is a conformal, thin poly(ethylene glycol)-like film deposited in a glow discharge of tetraglyme. Substrates with different chemistries are successfully modified, and exhibit ultralow protein adsorption and cell attachment with the coating. This "stealth" or "non-fouling" coating can also be faithfully patterned using standard photolithography processes. The interaction of proteins and cells with patterned surfaces is limited only to the protein-adhesive domains, thus creating heterogeneous patterns of proteins and cell cultures on the surface. The potential benefits of our technique to applications such as cell-based assays and micro-electrodes are discussed.

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Technical Digest. MEMS 2001. 14th IEEE International Conference on Micro Electro Mechanical Systems (Cat. No.01CH37090)

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