微流控
化学
纳米技术
多路复用
微通道
微观混合
微流控芯片
炸薯条
磁性纳米粒子
细胞外小泡
俘获
混合(物理)
免疫标记
混合器
磁选
液体活检
纳米颗粒
流体学
光电子学
癌症治疗
表面改性
实验室晶片
爆炸物
注射器驱动器
吞吐量
作者
Xiaofeng Chen,Dongdong Zhang,Chanyu Yao,Laiqi Zhang,Chenglei Zhu,Shengnan Yin,Zheng Li
标识
DOI:10.1021/acs.analchem.5c06550
摘要
Extracellular vesicles (EVs) have emerged as promising targets for liquid biopsy, yet their efficient isolation and release remain technically challenging. Conventional affinity-based microfluidic chips often suffer from limited contact efficiency and releasing performance between EVs and fixed capture elements. To address this, we developed a novel microfluidic chip integrating hybrid micromixing and magnetic trapping for high-performance EV isolation, on-chip antigen profiling, and releasing. The chip features a frontend mixing zone with an S-type microchannel to induce Dean vortices, combined with herringbone structures to enhance chaotic mixing. This design ensures optimal interaction between EVs and immunomagnetic beads (IMBs) functionalized with capture antibodies. The backend trapping zone employs a low-velocity circular chamber with a central trapping well to maximize the EV-IMB retention rate (>98%) under the magnetic force. The platform enables rapid (<4 min) and highly efficient EV capture (>93%) and release (>79%) or on-chip multiplexed immunolabeling of EV surface tumor biomarkers (EpCAM, PSA, CSV, CD63). Coupled with linear discriminant analysis, the chip demonstrated 100% accuracy in discrimination of cancer patients from healthy controls in early screening and >92% accuracy in distinguishing cancer subtypes, offering a robust tool for cost-effective cancer diagnosis and phenotyping.
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