一种制备介观独立聚二甲基硅氧烷膜的方法,用于探测上皮片的流变学

John C. Selby , Mark A. Shannon
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引用次数: 17

摘要

详细介绍了介观独立式聚二甲基硅氧烷(PDMS)弹性体膜的配方、制造和力学特性,该膜厚10.0 μm,直径5.0 mm,用于探测活上皮片的流变学。在所谓的复合隔膜膨胀(CDI)实验中,独立式PDMS膜被用作培养上皮细胞片的底物。电池层和PDMS弹性体一起形成复合膜(CD),适用于轴对称膜膨胀实验中的力学测试。为了利用膨胀测试数据区分上皮细胞片的流变行为和弹性体的机械响应,独立的PDMS膜在细胞培养后的间歇期进行多次膨胀循环时,应表现出高度柔韧但机械不变的有限载荷变形响应。考虑到这些因素,我们描述了一种制备独立的PDMS弹性体膜样品的方法,该样品具有光学透明、拉伸和无皱性。旨在促进细胞培养的表面修饰,即水蒸气等离子体和紫外线处理,被证明会显着增强膜的机械响应,使其无法用作CD底物。在本研究中,只有具有生理性吸收胶原的PDMS膜表现出在CDI实验中可靠使用所必需的机械顺应性、抗疲劳性和环境稳定性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A method to fabricate mesoscopic freestanding polydimethylsiloxane membranes used to probe the rheology of an epithelial sheet

Details are presented for the formulation, fabrication, and mechanical characterization of mesoscopic freestanding polydimethylsiloxane (PDMS) elastomer membranes, 10.0 μm thick and 5.0 mm in diameter, used to probe the rheology of a living epithelial sheet. In what is described as a composite diaphragm inflation (CDI) experiment, freestanding PDMS membranes are utilized as substrates for the culture of a sheet of epithelial cells. Together, the cell layer and the PDMS elastomer form a composite diaphragm (CD) that is suitable for mechanical testing in an axisymmetric membrane inflation experiment. In order to distinguish the rheological behavior of the epithelial sheet from the mechanical response of the elastomer using inflation test data, freestanding PDMS membranes should exhibit a highly compliant yet mechanically invariant finite load-deformation response when subjected to multiple inflation cycles following intermittent periods of cell culture. Given these considerations, we describe a method for preparing freestanding PDMS elastomer membrane specimens that are optically transparent, tensed, and wrinkle-free. Surface modifications intended to facilitate cell culture, namely water vapor plasma and ultraviolet light treatments, were shown to dramatically stiffen the mechanical response of the membranes, rendering them unusable as CD substrates. In this study, only PDMS membranes with physiosorbed collagen demonstrated the mechanical compliance, fatigue resistance, and environmental stability necessary for reliable use in CDI experiments.

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