A fully automated centrifugal microfluidic system for sample-to-answer viral nucleic acid testing

Tian, Fei; Liu, Chao; Deng, Jinqi; Han, Zhaobin; Lü, Zifeng; Chen, Qinghua; Sun, Jiashu

doi:10.1007/s11426-020-9800-6

Cited by 69 publications

(51 citation statements)

References 39 publications

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“…[ 140 ] Take the photonic‐enhanced loop‐mediated isothermal amplification (LAMP) (Figure 9c) as an example, the detection time of infected bacteria DNA was shortened to 40 min from 60 min and the detection limits was about 10 times lower than the standard LAMP. [ 141,142 ] In addition, ring resonator‐based NAAR methods were also reported in multiple and label‐free nucleic acids detection. [ 143–145 ]…”

Section: Other Methods With Opticsmentioning

confidence: 99%

On‐Chip Optical Detection of Viruses: A Review

Shi

Liu

et al. 2021

Advanced Photonics Research

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The current outbreak of the coronavirus disease‐19 (COVID‐19) pandemic worldwide has caused millions of fatalities and imposed a severe impact on our daily lives. Thus, the global healthcare system urgently calls for rapid, affordable, and reliable detection toolkits. Although the gold‐standard nucleic acid amplification tests have been widely accepted and utilized, they are time‐consuming and labor‐intensive, which exceedingly hinder the mass detection in low‐income populations, especially in developing countries. Recently, due to the blooming development of photonics, various optical chips have been developed to detect single viruses with the advantages of fast, label‐free, affordable, and point of care deployment. Herein, optical approaches especially in three perspectives, e.g., flow‐free optical methods, optofluidics, and surface‐modification‐assisted approaches, are summarized. The future development of on‐chip optical‐detection methods in the wave of emerging new ideas in nanophotonics is also briefly discussed.

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Section: Other Methods With Opticsmentioning

confidence: 99%

On‐Chip Optical Detection of Viruses: A Review

Shi

Liu

et al. 2021

Advanced Photonics Research

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“…Опубликован также протокол без предварительного выделения нуклеиновой кислоты, который сохранил отличную специфичность (99,5%), хотя и показал снижение чувствительности (86% для количества циклов ПЦР с превышением порогового значения флюоресценции (Ct) <30) по сравнению с RT-LAMP с предварительной экстракцией РНК. Ещё в одном исследовании выделение нуклеиновых кислот и последующая RT-LAMP были интегрированы в реакционные блоки микрофлюидного диска [57]; единый прибор запускал реакцию вращением последнего, контролировал нагрев до необходимой температуры, выполняя также обнаружение сигнала флуоресценции. Предполагаемый предел обнаружения для РНК вирусных частиц составил 2 копии на реакцию, пропускная способность -21 тест на диске, время анализа от образца до результата -~70 мин.…”

Section: прогресс в обнаружении Sars-cov-2unclassified

Rapid diagnostics of novel coronavirus infection by loop-mediated isothermal amplification

Khafizov

Petrov

Krasovitov

et al. 2021

Problems of Virology

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ФБУН «Центральный научно-исследовательский институт эпидемиологии» Федеральной службы по надзору в сфере защиты прав потребителей и благополучия человека (Роспотребнадзор), 111123, Москва, Россия В настоящем обзоре представлены основные принципы применения реакции петлевой изотермической амплификации (loop-mediated isothermal amplification, LAMP) для экспресс-диагностики коронавирусной инфекции, вызванной SARS-CoV-2. Кратко описаны базовые технические детали метода, наиболее популярные способы специфической и неспецифической детекции продуктов амплификации, обсуждены первые опубликованные работы по использованию рассматриваемой технологии для выявления фрагментов молекулы нуклеиновой кислоты вируса SARS-CoV-2, в том числе разрабатываемые в Российской Федерации. Для доступных тестов на базе LAMP перечислены основные аналитические характеристики наборов, которые нередко сравнимы с параметрами тест-систем на основе метода полимеразной цепной реакции с обратной транскрипцией (ОТ-ПЦР), а в ряде случаев превосходят их. Обсуждены преимущества и ограничения этого подхода в сравнении с другими способами молекулярной диагностики (в первую очередь ОТ-ПЦР), а также перспективы развития технологии для выявления возбудителей других инфекций.

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“…With the outbreak and extension of COVID-19 pandemic, the translation of POC NAT devices from academic research into viable products has gained considerable attentions. Meanwhile, a lot of newly-developed POC NAT devices emerge continuously to address new technical challenges caused by the pandemic ( Tian et al, 2020 ; Ye et al, 2020 ; Zhou et al, 2020 ). Although there exist several reviews focusing on microfluidic systems for NAT ( Ahrberg et al, 2016 ; Shrivastava et al, 2020 ; Yin et al, 2019 ; Zhang et al, 2017 ), they mostly focus on the development of nucleic acid amplification technologies, lacking in detailed discussion on translation.…”

Section: Introductionmentioning

confidence: 99%

Fully integrated microfluidic devices for qualitative, quantitative and digital nucleic acids testing at point of care

Bai

You

et al. 2021

Biosensors and Bioelectronics

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Benefiting from emerging miniaturized and equipment-free nucleic acid testing (NAT) technologies, fully integrated NAT devices at point of care (POC) with the capability of “sample-in-answer-out” are proceeding at a break-neck speed to eliminate complex operations and reduce the risk of contamination. Like the development of PCR technology (standard technique for NAT), the detection signal of fully integrated NAT devices has evolved from qualitative to quantitative and recently to digital readout, aiming at expanding their extensive applications through gradually improving detection sensitivity and accuracy. This review firstly introduces the existing commercial products, and then illustrates recent fully integrated microfluidic devices for NAT at POC from the aspect of detection signals ( i.e. , qualitative, quantitative and digital). Importantly, the key issues of existing commercial products and the main challenges between scientific research and product development are discussed. On this basis, we envision that the MARCHED ( m iniaturized, a utomatic, r eagent-preloaded, c ommercializable, h igh-throughput, e nvironment-independent and d isposable) NAT devices are expected to be realized in the near future.

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A fully automated centrifugal microfluidic system for sample-to-answer viral nucleic acid testing

Cited by 69 publications

References 39 publications

On‐Chip Optical Detection of Viruses: A Review

On‐Chip Optical Detection of Viruses: A Review

Rapid diagnostics of novel coronavirus infection by loop-mediated isothermal amplification

Fully integrated microfluidic devices for qualitative, quantitative and digital nucleic acids testing at point of care

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