Capillary electrophoresis based on nucleic acid detection for diagnosing human infectious disease

Lian, Dong-Sheng; Zhao, S. J.

doi:10.1515/cclm-2015-0096

Cited by 11 publications

(7 citation statements)

References 167 publications

(192 reference statements)

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“…For future integration with MCE, whereby analyte separation can occur, the problem of long detection time can also be discussed. Detection time can be lessened by using a smaller microfluidic chip with a shorter separation channel, while maintaining the same electric voltages [9], [10]. This would increase the electric field over the distance, thus increasing the charges on the constituent particles, increasing the travel velocity of the particles.…”

Section: Future Integration With Microchip Capillary Electrophoresismentioning

confidence: 99%

Lock-in Amplifier Dairy Sensor for Detection of Ciprofloxacin

et al. 2023

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This work introduces a sensor for dairy antibiotic detection of ciprofloxacin in milk. We provide an important tool for antibiotic detection in milk and the main contributions of this work are as follows. We introduce a technique based on florescence spectroscopy and lock-in amplification for sensing ciprofloxacin in milk that is capable of detection below the regulatory limit. We compare the system against one without the integrated lock-in amplification, as in traditional fluorescence sensors. We provide microchip capillary electrophoresis results and place our work in context for future integration with microchip capillary electrophoresis.

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Section: Future Integration With Microchip Capillary Electrophoresismentioning

confidence: 99%

Lock-in Amplifier Dairy Sensor for Detection of Ciprofloxacin

et al. 2023

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“…Moreover, the absence/presence of a PCR-fragment is interpreted by a software that measures the fluorescent intensity, that is proportional to the amount of the target sequence in the sample. FCE has also advantages relative to the qtPCR, such as the rapid and sensitive detection of dozens of different PCR fragments in single runs (Lian and Zhao, 2016). During the first months of the COVID19 pandemic we faced a demand for SARS-Cov-2 testing that exceeded our qtPCR capacity.…”

Section: A R T I C L E I N F Omentioning

confidence: 99%

Capillary electrophoresis of PCR fragments with 5´-labelled primers for testing the SARS-Cov-2

Gómez

Melón

Boga

et al. 2020

Journal of Virological Methods

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Elsevier has created a COVID-19 resource centre with free information in English and Mandarin on the novel coronavirus COVID-19. The COVID-19 resource centre is hosted on Elsevier Connect, the company's public news and information website. Elsevier hereby grants permission to make all its COVID-19-related research that is available on the COVID-19 resource centre-including this research content-immediately available in PubMed Central and other publicly funded repositories, such as the WHO COVID database with rights for unrestricted research re-use and analyses in any form or by any means with acknowledgement of the original source. These permissions are granted for free by Elsevier for as long as the COVID-19 resource centre remains active.

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“…Photoluminescence- (PL) and fluorescence-based methods likely represent the most widely employed detection metrologies of all sensor technologies. They are widely used in most technologies covered here, from microscopy assays to PCR reactions to microfluidics. − As many of these sensors are covered in sections that are more assay or instrument specific, the approaches briefly described in this section represent only a fraction of the total number of such sensors. In addition, many of the more recent sensors are NP-based and these are bringing with them many interesting and unique properties suitable for a wide range of sensor applications beyond just biothreat sensing. , Here, we briefly highlight QD-based sensors along with use of various other NPs (polystyrene, AuNPs, etc.)…”

Section: Spectroscopic Sensorsmentioning

confidence: 99%

Detecting Biothreat Agents: From Current Diagnostics to Developing Sensor Technologies

et al. 2018

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Although a fundamental understanding of the pathogenicity of most biothreat agents has been elucidated and available treatments have increased substantially over the past decades, they still represent a significant public health threat in this age of (bio)terrorism, indiscriminate warfare, pollution, climate change, unchecked population growth, and globalization. The key step to almost all prevention, protection, prophylaxis, post-exposure treatment, and mitigation of any bioagent is early detection. Here, we review available methods for detecting bioagents including pathogenic bacteria and viruses along with their toxins. An introduction placing this subject in the historical context of previous naturally occurring outbreaks and efforts to weaponize selected agents is first provided along with definitions and relevant considerations. An overview of the detection technologies that find use in this endeavor along with how they provide data or transduce signal within a sensing configuration follows. Current "gold" standards for biothreat detection/diagnostics along with a listing of relevant FDA approved in vitro diagnostic devices is then discussed to provide an overview of the current state of the art. Given the 2014 outbreak of Ebola virus in Western Africa and the recent 2016 spread of Zika virus in the Americas, discussion of what constitutes a public health emergency and how new in vitro diagnostic devices are authorized for emergency use in the U.S. are also included. The majority of the Review is then subdivided around the sensing of bacterial, viral, and toxin biothreats with each including an overview of the major agents in that class, a detailed cross-section of different sensing methods in development based on assay format or analytical technique, and some discussion of related microfluidic lab-on-a-chip/point-of-care devices. Finally, an outlook is given on how this field will develop from the perspective of the biosensing technology itself and the new emerging threats they may face.

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Capillary electrophoresis based on nucleic acid detection for diagnosing human infectious disease

Cited by 11 publications

References 167 publications

Lock-in Amplifier Dairy Sensor for Detection of Ciprofloxacin

Lock-in Amplifier Dairy Sensor for Detection of Ciprofloxacin

Capillary electrophoresis of PCR fragments with 5´-labelled primers for testing the SARS-Cov-2

Detecting Biothreat Agents: From Current Diagnostics to Developing Sensor Technologies

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