Integrated Immunomagnetic Bead-Based Microfluidic Chip for Exosomes Isolation

微流控 混合器 微泡 材料科学 微流控芯片 炸薯条 纳米技术 纳米粒子跟踪分析 分离(微生物学) 化学 计算机科学 生物信息学 生物 小RNA 生物化学 基因 电信
作者
Fuzhou Niu,Xifu Chen,Xue‐Mei Niu,Yifan Cai,Qingkui Zhang,Tao Chen,Hao Yang
出处
期刊:Micromachines [Multidisciplinary Digital Publishing Institute]
卷期号:11 (5): 503-503 被引量:26
标识
DOI:10.3390/mi11050503
摘要

Exosomes are essential early biomarkers for health monitoring and cancer diagnosis. A prerequisite for further investigation of exosomes is the isolation, which is technically challenging due to the complexity of body fluids. This paper presents the development of an integrated microfluidic chip for exosomes isolation, which combines the traditional immunomagnetic bead-based protocol and the recently emerging microfluidic approach, resulting in benefits from both the high-purity of the former and the automated continuous superiority of the latter. The chip was designed based on an S-shaped micromixer with embedded baffle. The excellent mixing efficiency of this micromixer compared with Y-shaped and S-shaped micromixers was verified by simulation and experiments. The photolithography technique was employed to fabricate the integrated microfluidic chip, and the manufacturing process was elucidated. We finally established an experimental platform for exosomes isolation with the fabricated microfluidic chip built in. Exosomes isolation experiments were conducted using this platform. The distribution and morphology of the isolated exosomes were observed by transmission electron microscopy (TEM) and scanning electron microscopy (SEM). Quantitative size analyses based on transmission electron micrographs indicated that most of the obtained particles were between 30 and 150 nm. Western blot analyses of the isolated exosomes and the serum were conducted to verify the platform’s capability of isolating a certain subpopulation of exosomes corresponding to specified protein markers (CD63). The complete time for isolation of 150 μL serum samples was approximately 50 min, which was highly competitive with the reported existing protocols. Experimental results proved the capacity of the established integrated microfluidic chip for exosomes isolation with high purity, high integrity, and excellent efficiency. The platform can be further developed to make it possible for practical use in clinical applications as a universal exosomes isolation and characterization tool.
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