烟台海岸带所在基于微流控纸芯片的环境与生物分析研发取得系列进展
图1 (A)应用于环境污染物分析的分子印迹荧光传感旋转式微流控纸芯片实物图与使用操作过程示意图,(B)该工作以封面论文发表于期刊Analytical Chemistry;(C)应用于肿瘤标志物分析的离心式全血检测微流控纸芯片示意图。
图2 用于生物分析肿瘤标志物的电化学分析微流控纸芯片(A)利用旋转阀的电化学发光免疫传感纸芯片的原理、操作示意图与检测性能结果图;(B、C)利用移动阀的分子印迹电化学传纸芯片的设计组成示意图与实物图,及其传感原理与操作使用过程示意图。
生物分析与临床诊断方面,团队首先研制了旋转式电化学发光免疫分析纸芯片,利用旋转阀控制方便操作,完成了纸基多通路的复杂夹心式免疫分析洗涤过程。进一步采用电化学方式,结合移动阀设计,在纸芯片平台上构建生物分子印迹聚合物,形成了一种基于可移动阀纸装置原位合成分子印迹聚合物的无抗体生物标志物的电化学分析策略,实现了人体血清中肿瘤标志物癌胚抗原的临床分析。在利用纸芯片离心全血获取血清方面也进行了研究,受拉力与绳驱动离心机的启发,将手动离心方式与旋转阀纸基免疫分析方法集成于一个纸芯片上,构建了同时具备全血离心功能与免疫分析功能的微流控纸芯片,配合智能手机或便携式比色分析仪器,在一个纸芯片上实现了从全血离心到免疫分析结果呈现的全过程。研制该芯片用于人体血液中癌胚抗原与甲胎蛋白两种肿瘤标志物的分析,并在临床应用实验和重复性考察上达到较好的效果。(Biosensors & Bioelectronics, 2019, 142 ;Analytical Chemistry, 2017, 89, 5708-5713; Analytica Chimica Acta, 2018, 1007, 33-39 ;Biosensors & Bioelectronics, 2020,接收)。
图3 纸芯片器件化方面的相关研究成果(A)书页式移动阀的设计结构之意图;(B)采用高聚物材料构建纸芯片的方法示意图与实际应用效果;(C、D)纸基与3D打印芯片混合微流控装置系统的实物图、设计原理示意图以及在癌细胞生物特性研究中的应用效果。
纸芯片器件化方面,该团队首先研发了灵活控制纸基平台流体开关的纸基移动阀,并进一步扩展成为书页式移动阀,更为灵活可拆卸更换,并取得了较好的应用效果。在纸芯片制作方面,利用新型廉价的高聚物材料,作为纸芯片疏水屏障的构建材料,实现了纸芯片上有机溶液的输送通道的构建,并为纸芯片的制作提供了更廉价的可能,该新型材料制作的纸芯片,在构建纸芯片在环境致病菌的检测方面得到较好的应用验证。进一步将纸基与3D打印芯片结合,形成混合微流控装置系统,利用该微流控系统器件检测了H2S对癌细胞的影响。发现持续暴露于低浓度H2S可通过诱导细胞凋亡来抑制癌细胞SMMC-7721的生长,此外还发现癌细胞中有两个气态分子H2S和NO存在串扰,它们在癌细胞中形成具有生物活性的中间多硫化物。(Analytical Chemistry, 2017, 89, 5708-5713;ACS Sensors , 2018, 3, 1789-1794 ;Sensor and Actuator B-Chemical, 2020, 303, 127213 ;ACS Sensors, 2020, 5, 464-473 ;)。
相关研究得到国家重点研发计划(Grant No. 2016YFC1400702)、国家自然科学基金(Grant No. 41776110, 21976209),、烟台市科技发展计划(2015ZH087)的支持。
相关论文:
[1] Bowei Li, Ji Qi, Longwen Fu, Jinglong Han, Jaebum Choo, Andrew J. deMello, Bingcheng Lin, Lingxin Chen. Integrated Hand-powered Centrifugation and Paper-based Diagnosis with Blood-in/Answer-out Capabilities. Biosensors & Bioelectronics, 2020,接收. (一区TOP)
[2] Ping Liu, Bowei Li, Longwen Fu, Yan Huang, Mingsan Man, Ji Qi, Xiyan Sun, Qi Kang, Dazhong Shen, Lingxin Chen. Hybrid three dimensionally printed paper-based microfluidic platform for investigating a cell's apoptosis and intracellular cross-talk. ACS Sensors, 2020, 5(2): 464-473. (一区TOP)
[3] Dong Lin, Bowei Li, Xiaofei Ji, Ji Qi, Wenhai Wang, Jinhua Li, Lingxin Chen, Low cost fabrication of microfluidic paper-based analytical devices with water-based polyurethane acrylate and their application for bacterial detection. Sensors and Actuators B-Chemical, 2020, 303:127213. (一区TOP)
[4] Junrui Zhou, Bowei Li, Anjin Qi, Yajun shi, Ji Qi, Huizhong Xu, and Lingxin Chen. ZnSe quantum dot based ion imprinting technology for fluorescence detecting cadmium and lead ions on a three-dimensional rotary paper-based microfluidic chip. Sensors and Actuators B-Chemical, 2020, 305:127462. (一区TOP)
[5] Ji Qi, Bowei Li, Na Zhou, Xiaoyan Wang, Dongmei Deng, Liqiang Luo, Lingxin Chen. The strategy of antibody-free biomarker analysis by in-situ synthesized molecularly imprinted polymers on movable valve paper-based device. Biosensors & Bioelectronics, 2019, 142, 111533. (一区TOP)
[6] Ji Qi, Bowei Li, Xiaoyan Wang, Longwen Fu, Liqiang Luo, Lingxin Chen. Rotational paper-based microfluidic-chip device for multiplexed and simultaneous fluorescence detection of phenolic pollutants based on a molecular-imprinting technique. Analytical Chemistry, 2018, 90, 11827-11834. (一区TOP)
[7] Jinglong Han, Anjin Qi, Junrui Zhou, Guan Wang, Bowei Li, Lingxin Chen. Simple way to fabricate novel paper-based valves using plastic comb binding spines. ACS Sensors, 2018, 3, 1789-1794. (一区TOP)
[8] Xiange Sun, Bowei Li, Chongguo Tian, Fabiao Yu, Na Zhou, Yinghua Zhan, Lingxin Chen. Rotational paper-based electrochemiluminescence immunodevices for sensitive and multiplexed detection of cancer biomarkers. Analytica Chimica Acta 2018, 1007, 33-39. (一区TOP)
[9] Ji Qi, Bowei Li, Xinran Wang, Zhong Zhang, Zhuo Wang, Jinglong Han, Lingxin Chen*. Three-dimensional paper-based microfluidic chip device for multiplexed fluorescence detection of Cu2+ and Hg2+ ions based on ion imprinting technology. Sensors and Actuators B-Chemical, 2017, 251, 224-233. (一区TOP)
[10] Bowei Li, Lijuan Yu, Ji Qi, Longwen Fu, Peiqing Zhang, Lingxin Chen. Controlling capillary-driven fluid transport in paper-based microfluidic devices using a movable valve. Analytical Chemistry, 2017, 89, 5708-5713. (一区TOP)
[11] Bowei Li, Zhong Zhang, Ji Qi, Na Zhou, Song Qin, Jaebum Choo, Lingxin Chen. Quantum Dot-Based Molecularly Imprinted Polymers on Three-Dimensional Origami Paper Microfluidic Chip for Fluorescence Detection of Phycocyanin. ACS Sensors, 2017, 2, 243-250. (一区TOP)
[12] 韩笑笑, 齐骥, 宋志花, 石雅君, 刘丰, 张昱, 韩京龙, 徐惠忠, 李博伟. 基于分子印迹的荧光传感技术及其应用研究,中国科学-化学,2020, 50, 463-475.
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