电化学发光生物传感技术在快速检测心肌梗死标志物中的研究进展

设计和发展简便、高灵敏、高选择性的分析手段以检测低浓度急性心肌梗死生物标志物是目前临床诊断迫切的需求。 电化学发光分析法由于具有稳定性好、灵敏度高、线性范围宽及可控性强等优点,能有效地进行低浓度样品检测。 该方法与生物传感技术相结合,有利于实现生物体液等复杂样品中极低含量急性心肌梗死生物标志物的快速检测。 本文综述了电化学发光生物传感技术在快速检测心肌梗死标志物中近5年的进展,介绍了电化学发光探针和共反应物,以及多组分生物传感检测技术等,并对其在心肌梗死标志物分析中的应用进行了总结。     

固定化联吡啶钌电化学发光免疫分析研究进展

综述了固定化联吡啶钌[Ru(bpy)23+]电化学发光免疫传感技术的发展状况,介绍了近年来在电化学发光免疫传感领域出现的新型固相载体材料和固定方法,及其与其他分析技术联用方面的发展,并对其发展趋势进行了展望.指出电化学发光免疫分析技术在生物分子检测、药物分析及临床诊断中显示出强大的生命力.Ru(bpy)23+的电化学发光已引起广泛的关注.固定化Ru(bpy)23+电化学发光免疫分析体系具有线性范围宽、灵敏度高、装置简单、可控性强等优点,被广泛应用于分子生物学、化学、药学等领域.     

分子印迹-电化学发光技术研究进展

分子印迹-电化学发光技术具有分子印迹技术的高选择性及电化学发光技术的高灵敏性,以及发光易于调控、稳定性好、便于微型化和仪器操作简单等优点,已被广泛地应用于重金属检测、免疫传感技术、基因传感技术、酶传感技术、食品安全与药物分析等领域。该文结合本实验室的研究工作介绍了分子印迹电化学发光传感器的原理和构建思路。在此基础上,着重介绍了分子印迹电化学发光技术在食品安全与药物分析中的应用,并对其今后的研究趋势进行了展望。     

分子印迹电化学发光分析

分子印迹电化学发光兼具分子印迹技术及电化学发光方法两者的优点,即高灵敏度、高选择性、可控性好、易于微型化和操作简单等特点。近几年来在生物仿生传感器、有害农药残留物质及食品安全监测等方面具有广泛的应用。本综述简要介绍分子印迹电化学发光传感器及分子印迹固相萃取电化学发光的概况,并对其今后的研究趋势进行展望。     

基于分子印迹技术的电化学发光分析

基于分子印迹技术的电化学发光分析是近几年刚刚发展起来的新型分析方法,兼具分子印迹技术与电化学发光方法两者的优点,具有高灵敏度、高选择性、可控性好、易于微型化和操作简单等特点,在生命科学、食品安全及环境监测等领域有着广泛的应用前景。本综述简要介绍了常用的电化学发光体系和基本原理,综述了近年来分子印迹电化学发光分析的主要研究进展,对不同类型分子印迹电化学分析的构建方法、原理及所构建方法的性能（包括灵敏度、选择性、检测范围和稳定性等）进行了评述。基于分子印迹技术的电化学发光分析主要可以分为三类：制备固态发光电极、非固态发光电极构建分子印迹电化学发光传感器和分子印迹固相萃取与电化学发光分析联用,其中制备固态发光电极用于构建分子印迹电化学发光传感器最有发展前景。最后,本综述也对分子印迹电化学发光分析今后的发展趋势和方向进行了展望。     

腐蚀接头毛细管电泳电化学发光系统用于临床药物的快速检测

毛细管电泳作为近年来发展起来的分离分析技术,以其分辨率高、分离时间短及样品试剂用量小等特点而被广泛用于环境、生物以及临床分析^[1].基于三联吡啶钌的电化学发光检测技术结合了电化学检测的微型、原位和化学发光的高灵敏,可用于胺类、醇类、DNA以及免疫分析^[2].毛细管电泳和电化学发光检测技术的结合可以成为一种低费用、低成本及简便快速的分离分析技术.     

量子点电化学发光研究进展及展望

电化学发光因具有低背景、 高灵敏度的优势已成为当前最先进的体外诊断技术之一. 以三联吡啶钌为代表的分子型电化学发光体系虽然实现了商业化应用, 但其光学性质已无法满足电化学发光分析的发展需求. 量子点作为新一代的理想发光材料在电化学发光领域表现出巨大的应用前景. 然而, 由于对量子点电化学发光的过程和机理研究尚不充分, 目前量子点电化学发光的各项性能均有待提升. 本文聚焦于量子点电化学发光领域的关键科学问题, 在总结该领域重要研究进展的基础上, 指出光谱学、 合成化学及电分析化学等多领域学科交叉是未来量子点电化学发光研究的重要发展方向.     

电化学发光成像技术及其在阵列传感分析和潜在指纹成像分析中的应用

电化学发光成像技术作为一种新的生化分析手段,具有设备简单、反应可控、多信息化和可视化等优点. 目前,该技术已被用于便携式、微型化、高通量的电化学发光传感器中,并取得了一系列创新性成果. 本文结合作者课题组的研究进展,简要介绍了电化学发光成像技术在阵列传感分析和潜在指纹检测中的应用,并尝试着展望了今后的发展趋势.     

有机磷毒剂的电化学传感研究进展

有机磷毒剂是一类含磷（膦）酸或磷（膦）酸酯类高毒有机物及其衍生物的统称，能破坏正常神经传导，造成神经系统损伤，在军事行动和农业生产等方面的非常规使用给人类生存发展带来了严重威胁。电化学传感技术以其设备简便、灵敏度高、响应速度快等优点展现了实地传感有机磷毒剂的巨大潜力。总结了近几年有机磷毒剂的电化学传感相关研究报道，依据检测原理差异性将其分为4类：直接检测法、电化学酶法、电化学免疫法和电化学发光法。分析了各种方法的检测机理和优缺点；介绍了不同传感方法对工作电极修饰材料的要求；比较了不同电极修饰材料对方法检出限和线性范围的影响；阐述了电化学与生物技术结合检测有机磷毒剂的研究进展。电化学酶法和电化学免疫法具备选择性好和适用范围宽等优点，进而提出了纳米酶、纳米抗体和多维修饰材料结合传感检测含磷毒剂的新思路。     

基于光学成像技术的单颗粒电化学研究

光学显微镜技术具有高时空分辨率、高通量、高灵敏度、非接触等优点,十分适合于微观、异相界面的电子转移过程研究,因而在单颗粒电化学分析中展现出良好的应用前景.结合本课题组的研究工作,本文主要介绍了单分子荧光显微镜、表面等离激元共振显微镜、暗场显微镜及电化学发光四种光学显微技术在单纳米粒子电化学研究方面取得的最新研究进展,最...     

Electrochemiluminescence of N-(4-amino-hexyl)-N-Ethyisoluminol at Carbon Electrode

In recent years,there has been increasing interest in the development of electrochemi-luminence (ECL) in HPLC for the analysis of various biological substances because of its high sensitivity. ECL is a detection technique based on electrolytically generated chemilumi-narscence.     

Inkjet-printed paperfluidic immuno-chemical sensing device

This paper reports on an inkjet printing method for the fabrication of lateral flow immunochromatographic devices made from a single piece of filter paper by patterning microfluidic channels and dispensing immunosensing inks, requiring only a single printing apparatus. This “paperfluidic” immunosensing device allows for a less time-consuming and more low-cost fabrication compared with the conventional immunochromatographic strips requiring multiple pads, plastic or nylon backing, and a plastic case. A sandwich immunoreaction was performed on the patterned immunosensing paper device, and the sensitivity of the device was optimized with an IgG model analyte. Inkjet-printed antibodies on the test line and the control line were immobilized by physical adsorption, resulting in a very simple fabrication method applicable for pure cellulose surfaces. The color intensity in the test line and the control line was determined both by naked eye and by means of a color scanner in combination with a simple computer program. With the resulting paperfluidic immunosensing device, human IgG concentrations at least down to 10 μg/l could be detected within 20 min. Additionally, in order to demonstrate the feasibility of a total multianalyte sensing system, a combined immuno-chemical sensing device was also fabricated by patterning an additional microfluidic channel for a chemical assay onto the same paper substrate. This low-cost multianalyte paperfluidic sensing device thus demonstrates the feasibility of simple, portable, and disposable tools for pathogen detection in the field of medical, environmental, and food analyses, possibly resulting in useful devices in remote settings and less-industrialized countries.     

免疫分析与细胞检测新原理与新方法研究

将分析化学与临床诊断相结合,发展临床检测新原理、新方法已成为人类健康的前沿领域之一,其中免疫分析,特别是多标志物同时免疫检测新方法的发展,与细胞检测已成为人们关注的课题。本文综述了近3年来这方面的研究进展, 并简要介绍了免分离、准无试剂和全无试剂安培免疫分析,空间分辨多通道安培芯片,底物区带分辨、通道分辨和通道-底物区带二维分辨化学发光免疫分析等多种免疫分析新概念,细胞检测与表面增殖监测、细胞毒效应研究与药敏检测新方法,对其在肿瘤临床诊断中的应用也作了总结。     

Application of ZnO quantum dots dotted carbon nanotube for sensitive electrochemiluminescence immunoassay based on simply electrochemical reduced Pt/Au alloy and a disposable device

We report on a disposable microdevice suitable for sandwich-type electrochemiluminescence (ECL) detection of prostate specific antigen (PSA). The method is making use of ZnO quantum dots dotted carbon nanotube (ZnO@CNT) and simply electrochemical reduced Pt/Au alloy. The latter was selected as immunosensing probe to modify screen-printed carbon electrode, due to its excellent electrical property. For further ultrasensitive, low-potential and stable ECL detection, ZnO@CNT composite was first synthesized using a facile solvothermal method, and employed as signal amplification label. In this work, two working electrodes in one device were used for one determination to obtain more exact results based on screen-print technique. Taking advantage of dual-amplification effects of the Pt/Au and ZnO@CNT, this immunosensor could detect the PSA quantitatively, in the range of 0.001–500 ng mL⁻¹, with a low detection limit of 0.61 pg mL⁻¹. The resulting versatile immunosensor possesses high sensitivity, satisfactory reproducibility and regeneration. This simple and specific strategy has vast potential to be used in other biological assays.     

Recent advances in electrochemiluminescence imaging analysis based on nanomaterials and micro-/nanostructures

In this review, the basic principles and apparatus of ECL imaging were briefly introduced at first. Then several latest and representative applications of ECL imaging based on nanomaterials and micro-/nanostructures were overviewed. Finally, the superiorities and challenges in ECL imaging for further development were discussed.     

Recent advances in electrochemiluminescence imaging analysis based on nanomaterials and micro-/nanostructures

Electrochemiluminescence (ECL) is a kind of luminescent phenomenon caused by electrochemical reactions. Based on the advantages of ECL including low background, high sensitivity, strong spatiotemporal controllability and simple operation, ECL imaging is able to visualize the ECL process, which can additionally achieve high throughput, fast and visual analysis. With the development of optical imaging technique, ECL imaging at micro- or nanoscale has been successfully applied in immunoassay, cell imaging, biochemical analysis, single-nanoparticle detection and study of mechanisms and kinetics of reactions, which has attracted extensive attention. In this review, the basic principles and apparatus of ECL imaging were briefly introduced at first. Then several latest and representative applications of ECL imaging based on nanomaterials and micro-/nanostructures were overviewed. Finally, the superiorities and challenges in ECL imaging for further development were discussed.     

Automated chemiluminescent dual-analyte immunoassay based on resolved immunosensing channels

A novel system of series-wound immunosensing channels (SWIC) was proposed for automated chemiluminescent (CL) dual-analyte immunoassay by immobilizing respectively different capture antibodies on the inner walls of series-wound glass channels. This system could use a single enzyme as label to perform multiplex immunoassay in one fluid way. Using α-fetoprotein (AFP) and carcinoembryonic antigen (CEA) as model analytes, the mixture including AFP, horseradish peroxidase (HRP)-labeled anti-AFP antibody, CEA and HRP-labeled anti-CEA antibody was introduced into the SWIC for carrying out the on-line incubation. Upon injection of CL substrate the CL signals from the two immunosensing channels were conveniently resolved and near-simultaneously collected with the aid of optical shutter. AFP and CEA could be rapidly assayed in the ranges of 1.0-100 and 1.0-80 ng/ml with detection limits of 0.41 and 0.39 ng/ml, respectively. The assay results of clinical serum samples were in an acceptable agreement with the reference values. This designed flow-through immunosensing system based on SWIC provided an automated, reusable, simple, sensitive and low-cost approach for multianalyte immunoassay.     

Electrogenerated chemiluminescence: an oxidative-reductive mechanism between quinolone antibiotics and tris(2,2'-bipyridyl)ruthenium(II)

The cyclic voltammetry and electrogenerated chemiluminescent (ECL) reactions of a series of quinolone and fluoroquinolone antibiotics were investigated in a flow injection analysis (FIA) system. 7-Piperazinyl fluoroquinolone antibiotics were found to participate as a coreactant in an oxidative-reductive ECL mechanism with tris(2,2′-bipyridyl)ruthenium(II) (Ru(bpy)₃²⁺) as the luminescent reagent. The reaction mechanism was investigated in order to understand and optimize the processes leading to light emission. The optimal conditions included a solution pH ∼7 at a flow rate of 3.0 mL min⁻¹ with no added organic modifier and application of 1.2 V vs. a Pt quasi-reference electrode (QRE). Fluoroquinolones containing a tertiary distal nitrogen on the piperazine ring, such as enrofloxacin and ofloxacin, reacted to produce more intense ECL than those with a secondary nitrogen, such as ciprofloxacin and norfloxacin. The method linear range, precision, detection limits, and sensitivity for the detection of enrofloxacin and ciprofloxacin were compared to that of tripropylamine. The method was applied to the determination of the ciprofloxacin content in a pharmaceutical preparation. The assay is discussed in terms of its analytical figures of merit, ease of use, speed, accuracy and application to pharmaceutical samples.