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用于增强微流控芯片内细胞附着和增殖的SU-8表面改性。

Surface modification of SU-8 for enhanced cell attachment and proliferation within microfluidic chips.

作者信息

Hamid Qudus, Wang Chengyang, Snyder Jessica, Sun Wei

机构信息

Department of Mechanical Engineering and Mechanics, Drexel University, Philadelphia, Pennsylvania.

出版信息

J Biomed Mater Res B Appl Biomater. 2015 Feb;103(2):473-84. doi: 10.1002/jbm.b.33223. Epub 2014 Jun 12.

Abstract

Advances in micro-electro-mechanical systems (MEMS) have led to an increased fabrication of micro-channels. Microfabrication techniques are utilized to develop microfluidic channels for continuous nutrition supply to cells inside a micro-environment. The ability of cells to build tissues and maintain tissue-specific functions depends on the interaction between cells and the extracellular matrix (ECM). SU-8 is a popular photosensitive epoxy-based polymer in MEMS. The patterning of bare SU-8 alone does not provide the appropriate ECM necessary to develop microsystems for biological applications. Manipulating the chemical composition of SU-8 will enhance the biological compatibility, giving the fabricated constructs the appropriate ECM needed to promote a functional tissue array. This article investigates three frequently used surface treatment techniques: (1) plasma treatment, (2) chemical reaction, and (3) deposition treatment to determine which surface treatment is the most beneficial for enhancing the biological properties of SU-8. The investigations presented in this article demonstrated that the plasma, gelatin, and sulfuric acid treatments have a potential to enhance SU-8's surface for biological application. Of course each treatment has their advantages and disadvantages (application dependent). Cell proliferation was studied with the use of the dye Almar Blue, and a micro-plate reader. After 14 days, cell proliferation to plasma treated surfaces was statistically significantly enhanced (p < 0.00001), compared to untreated surfaces. The plasma treated surface is suggested to be the better of the three treatments for biological enhancement followed by gelatin and sulfuric acid treatments, respectively.

摘要

微机电系统(MEMS)的进展导致了微通道制造量的增加。微制造技术被用于开发微流体通道,以便在微环境中为细胞持续提供营养。细胞构建组织并维持组织特异性功能的能力取决于细胞与细胞外基质(ECM)之间的相互作用。SU-8是MEMS中一种常用的基于环氧树脂的光敏聚合物。仅对裸SU-8进行图案化并不能提供开发用于生物应用的微系统所需的合适ECM。操纵SU-8的化学成分将提高生物相容性,使制造的结构具有促进功能性组织阵列所需的合适ECM。本文研究了三种常用的表面处理技术:(1)等离子体处理,(2)化学反应,以及(3)沉积处理,以确定哪种表面处理对增强SU-8的生物学特性最有益。本文中的研究表明,等离子体、明胶和硫酸处理有潜力增强SU-8用于生物应用的表面。当然,每种处理都有其优缺点(取决于应用)。使用染料阿尔玛蓝和酶标仪研究了细胞增殖情况。14天后,与未处理的表面相比,经等离子体处理的表面上细胞增殖在统计学上显著增强(p < 0.00001)。对于生物增强而言,等离子体处理的表面被认为是三种处理中效果最好的,其次分别是明胶和硫酸处理。

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