An all-in-one microfluidic SlipChip for power-free and rapid biosensing of pathogenic bacteria†

IF 6.1 2区 工程技术 Q1 BIOCHEMICAL RESEARCH METHODS
Lab on a Chip Pub Date : 2024-07-31 DOI:10.1039/D4LC00366G
Li Xue, Ming Liao and Jianhan Lin
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Abstract

Point-of-care testing of pathogens is becoming more and more important for the prevention and control of food poisoning. Herein, a power-free colorimetric biosensor was presented for rapid detection of Salmonella using a microfluidic SlipChip for fluidic control and Au@PtPd nanocatalysts for signal amplification. All the procedures, including solution mixing, immune reaction, magnetic separation, residual washing, mimicking catalysis and colorimetric detection, were integrated on this SlipChip. First, the mixture of the bacterial sample, immune magnetic nanobeads (IMBs) and immune Au@PtPd nanocatalysts (INCs), washing buffer and H2O2–TMB chromogenic substrate were preloaded into the sample, washing and catalysis chambers, respectively. After the top layer of this SlipChip was slid to connect the sample chamber with the separation chamber, the mixture was moved back and forth through the asymmetrical split-and-recombine micromixer by using a disposable syringe to form the IMB–Salmonella–INC sandwich conjugates. Then, the conjugates were captured in the separation chamber using a magnetic field, and the top layer was slid to connect the washing chamber with the separation chamber for washing away excessive INCs. Finally, the top layer was slid to connect the catalysis chamber with the separation chamber, and the colorless substrate was catalyzed by the INCs with peroxidase-mimic activity to generate color change, followed by using a smartphone app to collect and analyze the image to determine the bacterial concentration. This all-in-one microfluidic biosensor enabled simple detection of Salmonella as low as 101.2 CFU mL−1 within 30 min and was featured with low cost, straightforward operation, and compact design.

Abstract Image

用于病原菌免电源快速生物传感的一体化微流控芯片
病原体的床旁检测对预防和控制食物中毒越来越重要。本文介绍了一种无需电源的比色生物传感器,利用微流控芯片进行流体控制,并利用 Au@PtPd 纳米催化剂进行信号放大,从而快速检测沙门氏菌。该芯片集成了溶液混合、免疫反应、磁分离、残留洗涤、模拟催化和比色检测等所有程序。首先,将细菌样品、免疫纳米磁珠(IMBs)和免疫 Au@PtPd 纳米催化剂(INCs)的混合物、洗涤缓冲液和 H2O2-TMB 发色底物分别预先装入样品室、洗涤室和催化室。滑片的顶层滑动连接样品室和分离室后,使用一次性注射器将混合物在非对称分裂重组微混合器中来回移动,形成 IMB-沙门氏菌-INC 三明治共轭物。然后,利用磁场将共轭物捕获到分离室中,并滑动顶层以连接洗涤室和分离室,从而洗去过量的 INC。最后,滑动顶层将催化室与分离室连接起来,无色底物在具有过氧化物酶模拟活性的 INCs 催化下产生颜色变化,然后使用智能手机 App 收集和分析图像,确定细菌浓度。这种一体化微流控生物传感器可在 30 分钟内简单检测出低至 101.2 CFU/mL 的沙门氏菌,具有成本低、操作简单、设计紧凑等特点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Lab on a Chip
Lab on a Chip 工程技术-化学综合
CiteScore
11.10
自引率
8.20%
发文量
434
审稿时长
2.6 months
期刊介绍: Lab on a Chip is the premiere journal that publishes cutting-edge research in the field of miniaturization. By their very nature, microfluidic/nanofluidic/miniaturized systems are at the intersection of disciplines, spanning fundamental research to high-end application, which is reflected by the broad readership of the journal. Lab on a Chip publishes two types of papers on original research: full-length research papers and communications. Papers should demonstrate innovations, which can come from technical advancements or applications addressing pressing needs in globally important areas. The journal also publishes Comments, Reviews, and Perspectives.
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