Equipment‐Free Quantitative Readout in Paper‐Based Point‐of‐Care Testing

Li, Zedong; You, Minli; Bai, Yuemeng; Gong, Yan; Xu, Feng

doi:10.1002/smtd.201900459

Cited by 51 publications

(44 citation statements)

References 60 publications

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“…To achieve quantitative detection without instrumental analysis, Li et al designed a μPAD that converts the concentration of the sample into a quantitative signal and it is readable by the naked eye. They converted the concentration of the sample into the distance of the colour change in the reaction in the microfluidic channel on the paper or the number of regions of the colour change caused by the reaction, and reflected the length of the distance change or calculated the number of colour change regions to reflect the sample concentration. Based on the PNP equation combined with the N‐S equation, Han et al .…”

Section: Applications Of Ion Transport Based On Icpmentioning

confidence: 99%

A review: applications of ion transport in micro‐nanofluidic systems based on ion concentration polarization

Han

Chen

2019

J of Chemical Tech & Biotech

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Lab-on-a-chip has been used widely in rapid, high-throughput and low-consumption analysis of samples in biochemistry. The ion concentration polarization (ICP) produced by ion-selective transport of nanochannels provides a novel solution for problems in ultra-low concentration sample detection, systems biology and desalination. This paper reviews the applications of ion transport based on the principle of ICP in micro-nanofluidic systems. First, the fundamental governing equations of ICP are described. Then, the applications of nano-electrokinetic ion enrichment and ion current rectification (ICR) are introduced. Nano-electrokinetic ion enrichment is used mainly in the fields of molecular enrichment, ultra-low concentration sample detection and seawater desalination. ICR is applied mainly to the sensitive detection of analytical substances such as proteins, nucleic acids and small molecules. The application of ion transport based on ICP principle is summarized and the possible directions worthy of further research are proposed.

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Section: Applications Of Ion Transport Based On Icpmentioning

confidence: 99%

A review: applications of ion transport in micro‐nanofluidic systems based on ion concentration polarization

Han

Chen

2019

J of Chemical Tech & Biotech

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“…Most of the visual readout results come as “yes” or “no”, whereas quantification and its sensitivity are challenging. Fortunately, some POC techniques are available for quantitative measurement that are paper-based and instrument- free (Li et al 2020 ). It is highly desirable to enhance the sensitivity of LFA-based POC testing (Hwang et al 2016 ; Chen et al 2020 ).…”

Section: Introductionmentioning

confidence: 99%

Improving the sensitivity of cellulose fiber-based lateral flow assay by incorporating a water-dissolvable polyvinyl alcohol dam

Alam

et al. 2021

Cellulose

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Lateral flow assay (LFA) is an important point-of-care (POC) test platform due to the associated portability, on-site testing, and low cost for diagnosis of pathogen infections and disease biomarkers. However, compared to high-end analyzers in hospitals, LFA devices, in particular, paper-based LFA tests, fall short in accuracy. This study focuses on two ways to improve LFAs: (1) using cellulose fibers, rather than glass fibers for a sample pad, and (2) incorporating a one-step simple, facile, and low cost PVA dam into the LFA. Both strategies (cellulose fiber as a sample pad and water dissolvable PVA dam) contributed to delaying the controlled biomolecule's flow through the nitrocellulose membrane's capillary channels resulting in increased bio-recognition time, thus contributing to the enhancement of LFA sensitivity. PVA modified cellulose fiber-based LFA demonstrated 10 times higher sensitivity than the cellulose fiber-based unmodified LFA, whereas 2 times enhancement was obtained in the cellulose fiber-based sample pad LFA compared to the glass fiber-based sample pad LFA. Ultimately, 20 times increase in sensitivity was achieved in the modified LFA device. This study shows that PVA and eco-friendly cellulose fibers could be incorporated into other paper based POC testing devices for future development.

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“…Lateral flow devices are one of the most widely used POC diagnostic tools for the detection of infectious diseases owing to their advantages of simplicity, easy operation, rapidness, durable stability, cost-effectiveness, and minimum user intervention [412] , [413] , [414] . Since the first lateral flow device developed in the 1980s for pregnancy self-testing, there have been various lateral flow devices developed for all kinds of applications, including biomarker detection, disease diagnosis, food safety, environment monitoring and so on [415] , [416] , [417] , [418] , [419] , [420] .…”

Section: Poc Devices For Infectious Disease Detectionmentioning

confidence: 99%