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Rapid automated extracellular vesicle isolation and miRNA preparation on a cost-effective digital microfluidic platform

Zhaoduo Tong, Dawei Yang, Chuanjie Shen, Chao Li, Xin Xu, Qiushi Li, Zhenhua Wu, Hui Ma, Fuxiang Chen, Hongju Mao

2024Analytica Chimica Acta38 citationsDOIOpen Access PDF

Abstract

As a prerequisite for extracellular vesicle (EV) -based studies and diagnosis, effective isolation, enrichment and retrieval of EV biomarkers are crucial to subsequent analyses, such as miRNA-based liquid biopsy for non-small-cell lung cancer (NSCLC). However, most conventional approaches for EV isolation suffer from lengthy procedure, high cost, and intense labor. Herein, we introduce the digital microfluidic (DMF) technology to EV pretreatment protocols and demonstrate a rapid and fully automated sample preparation platform for clinical tumor liquid biopsy. Combining a reusable DMF chip technique with a low-cost EV isolation and miRNA preparation protocol, the platform completes automated sample processing in 20-30 min, supporting immediate RT-qPCR analyses on EV-derived miRNAs (EV-miRNAs). The utility and reliability of the platform was validated via clinical sample processing for EV-miRNA detection. With 23 tumor and 20 non-tumor clinical plasma samples, we concluded that EV-miR-486-5p and miR-21-5p are effective biomarkers for NSCLC with a small sample volumn (20-40 μL). The result was consistent to that of a commercial exosome miRNA extraction kit. These results demonstrate the effectiveness of DMF in EV pretreatment for miRNA detection, providing a facile solution to EV isolation for liquid biopsy.

Topics & Concepts

Liquid biopsyChemistrymicroRNAExtracellular vesiclesExosomeIsolation (microbiology)MicrovesiclesExtracellular vesicleDigital polymerase chain reactionSample preparationMicrofluidicsCancer biomarkersChromatographyNanotechnologyCancerBioinformaticsCell biologyBiochemistryPolymerase chain reactionInternal medicineMaterials scienceGeneBiologyMedicineExtracellular vesicles in diseaseMicrofluidic and Bio-sensing TechnologiesNanopore and Nanochannel Transport Studies
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