以聚多巴胺为间隔剂对胶原的PDMS基微流控器件进行表面修饰,增强原代人支气管上皮细胞黏附

ty10086 提交于 周三, 08/25/2021 - 16:07
文章英文标题
Surface Modification of PDMS-Based Microfluidic Devices with Collagen Using Polydopamine as a Spacer to Enhance Primary Human Bronchial Epithelial Cell Adhesion
正文
聚二甲基硅氧烷( PDMS )具有透明性、柔韧性、透气性和易用性等特点,是一种应用于各种生物医学领域的有机硅合成材料。虽然PDMS在微观和纳米尺度上促进和辅助了复杂的几何结构的制备,但它并不能与细胞进行最佳的粘附和增殖。人们提出了各种策略来渲染PDMS以增强细胞附着。这些表面改性技术大部分已提供给静态细胞培养系统。然而,像芯片上的器官设备这样的动态细胞培养系统需要平台来重现活体组织微环境的复杂性。在片上器官平台中,PDMS表面通常被细胞外基质( ECM )蛋白包被,这种包被是由于PDMS与ECM蛋白之间存在物理和弱的结合,当受到剪切应力时这种结合会被降解。本文报道了利用聚多巴胺( PDA )在PDMS基微流控器件中共价结合胶原的静态和动态涂层方法,并通过水接触角测量和原子力显微镜( AFM )对涂层方法进行了评价,优化了涂层条件。通过在微流控装置中培养原代人支气管上皮细胞( HBECs ),评价胶原涂层PDMS器件的生物相容性。结果表明,两种PDA涂层方法均能结合胶原蛋白,从而提高细胞的粘附力(约3倍以上),但两种方法的细胞粘附力没有明显差异。这些结果表明,这样的表面修饰可以帮助在PDMS基微流控器件上包复细胞外基质蛋白。
文章内容(英文)
Polydimethylsiloxane (PDMS) is a silicone-based synthetic material used in various biomedical applications due to its properties, including transparency, flexibility, permeability to gases, and ease of use. Though PDMS facilitates and assists the fabrication of complicated geometries at micro- and nano-scales, it does not optimally interact with cells for adherence and proliferation. Various strategies have been proposed to render PDMS to enhance cell attachment. The majority of these surface modification techniques have been offered for a static cell culture system. However, dynamic cell culture systems such as organ-on-a-chip devices are demanding platforms that recapitulate a living tissue microenvironment’s complexity. In organ-on-a-chip platforms, PDMS surfaces are usually coated by extracellular matrix (ECM) proteins, which occur as a result of a physical and weak bonding between PDMS and ECM proteins, and this binding can be degraded when it is exposed to shear stresses. This work reports static and dynamic coating methods to covalently bind collagen within a PDMS-based microfluidic device using polydopamine (PDA). These coating methods were evaluated using water contact angle measurement and atomic force microscopy (AFM) to optimize coating conditions. The biocompatibility of collagen-coated PDMS devices was assessed by culturing primary human bronchial epithelial cells (HBECs) in microfluidic devices. It was shown that both PDA coating methods could be used to bind collagen, thereby improving cell adhesion (approximately three times higher) without showing any discernible difference in cell attachment between these two methods. These results suggested that such a surface modification can help coat extracellular matrix protein onto PDMS-based microfluidic devices.Q
来源出处
Journal|[J]MicromachinesVolume 12, Issue 2. 2021. PP 132-132
DOI
https://doi.org/10.3390/MI12020132

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此链接为PDMS-微流控芯片/PDMS/道康宁SYLGARD184/小桶0.5KG装的链接。

一般性的产品性能参数表参考以下小桶装的参数:

微流控芯片/PDMS/道康宁SYLGARD184;微流控芯片/PDMS/道康宁SYLGARD184;微流控芯片/PDMS/道康宁SYLGARD184;

品牌型号:道康宁SYLGARD184

包装规格:0.5KG/罐[含有45.4g固化剂,总重量为0.5KG]

产品颜色:保质期限:36个月

存放环境说明:室温,阴凉处保存

备注说明:

美国道康宁道康宁SYLGARD 184硅橡胶是由液体组分组成的双组分套件产品,包括基本组分与固化剂。基本组分与固化剂按10:1重量比完全混合,中等粘度混合液的稠度与SAE 40机油相似。无论厚薄,混合液将固化成为具有韧性的透明弹性体,最适用于电子/电气方面的封装与灌封应用。 道康宁SYLGARD 184硅橡胶在25~150℃的温度范围内固化,无放热现象,无需二次固化。固化过程完成后,可立即在-55~200℃的温度范围内使用。 产品特性:低毒性,在常规的工业操作中,无特别的注意事项; 无溶剂或固化副产物, 固化时不放热;无需特殊的通风条件,不会产生腐蚀;固化时,收缩量小; 固化后, 透明具有弹性;抗震与减缓机械震动;振动的传递性能小;元件可裸视检查与易修补性; 环保性能;低吸水性,良好的耐辐射性能;高真空状态下的低漏气性; 优异的电性能;较大温度范围内的稳定性, 抗解聚;在-55~200℃范围内,甚至在密闭状态下保持弹性与柔韧性,性能稳定; 阻燃性,UL可燃性分级为94 V-1,温度等级:130℃ 产品用途: 道康宁SYLGARD 184硅橡胶在电气/电子的封装与灌封方面有广泛的应用。