Locally enhanced concentration and detection of oligonucleotides in a plug-based microfluidic device

Fang, Wei-Feng; Ting, Shang-Chieh; Hsu, Cheng–Che; Chen, Yu-Tzu; Yang, Jing‐Tang

doi:10.1039/c2lc20917a

Cited by 19 publications

(17 citation statements)

References 46 publications

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“…The figures improved on strengthening the contrast of the photograph to assist the visualization of the length of the faint yellow flow amphiphilic property. In hence applying our method to accomplish a simple and quick DNA quantification, to perform the experiments we chose DNA of two kinds: DNA labeled with FAM (DNA-FAM) or TAMRA (DNA-TAMRA) respectively; FAM possesses a hydrophilic functional group whereas TAMRA possesses a lipophilic one(Fang et al 2012). The aqueous solution containing DNA wicked along the paper channel, and the molecules of DNA interacted with the wax barrier and filter paper, finally producing a specific flow length.…”

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confidence: 99%

Detection of an amphiphilic biosample in a paper microchannel based on length

Chen

Yang

2015

Biomed Microdevices

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We developed a simple method to achieve semiquantitative detection of an amphiphilic biosample through measuring the length of flow on a microfluidic analytical device (μPAD) based on paper. When an amphiphilic sample was dripped into a straight microchannel defined with a printed wax barrier (hydrophobic) on filter paper (hydrophilic), the length of flow was affected by the reciprocal effect between the sample, the filter-paper channel and the wax barrier. The flow length decreased with increasing concentration of an amphiphilic sample because of adsorption of the sample on the hydrophobic barrier. Measurement of the flow length enabled a determination of the concentration of the amphiphilic sample. The several tested samples included surfactants (Tween 20 and Triton X-100), oligonucleotides (DNA), bovine serum albumin (BSA), human albumin, nitrite, glucose and low-density lipoprotein (LDL). The results show that the measurement of the flow length determined directly the concentration of an amphiphilic sample, whereas a non-amphiphilic sample was not amenable to this method. The proposed method features the advantages of small cost, simplicity, convenience, directness, rapidity (<5 min) and requirement of only a small volume (5 μL) of sample, with prospective applications in developing areas and sites near patients for testing at a point of care (POCT).

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Detection of an amphiphilic biosample in a paper microchannel based on length

Chen

Yang

2015

Biomed Microdevices

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“…Many microfluidic devices for droplet generation or microfluidic DNA amplification are made of PDMS [ 166 , 167 , 168 , 169 , 170 ]. The benefit of using PDMS is the fact that the surface of the channel is hydrophobic.…”

Section: Chip Materials For Dna Analysismentioning

confidence: 99%

Microfluidic Devices for Forensic DNA Analysis: A Review

et al. 2016

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Microfluidic devices may offer various advantages for forensic DNA analysis, such as reduced risk of contamination, shorter analysis time and direct application at the crime scene. Microfluidic chip technology has already proven to be functional and effective within medical applications, such as for point-of-care use. In the forensic field, one may expect microfluidic technology to become particularly relevant for the analysis of biological traces containing human DNA. This would require a number of consecutive steps, including sample work up, DNA amplification and detection, as well as secure storage of the sample. This article provides an extensive overview of microfluidic devices for cell lysis, DNA extraction and purification, DNA amplification and detection and analysis techniques for DNA. Topics to be discussed are polymerase chain reaction (PCR) on-chip, digital PCR (dPCR), isothermal amplification on-chip, chip materials, integrated devices and commercially available techniques. A critical overview of the opportunities and challenges of the use of chips is discussed, and developments made in forensic DNA analysis over the past 10–20 years with microfluidic systems are described. Areas in which further research is needed are indicated in a future outlook.

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“…Kinoshita et al (Kinoshita et al, 2007) obtained three-dimensional velocity information and circulation patterns inside a moving aqueous droplet by confocal microscopy, while other investigators (Kashid et al, 2005, Sarrazin et al, 2006) qualitatively compared velocity fields acquired from PIV with CFD simulations, proving the suitability of the experimental technique for these flows. More recently, Fang et al (Fang et al, 2012) proposed a technique to locally enhance DNA concentration by using a plug flow microdevice. PIV velocity data within water plugs were used to locally quantify the shear strain rate, while mixing was investigated by using a continuous dye.…”

Section: Particle Image Velocimetry (Piv)mentioning

confidence: 99%

Studies of Intensified Small-scale Processes for Liquid-Liquid Separations in Spent Nuclear Fuel Reprocessing

Tsaoulidis¹

2015

Springer Theses

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The main contribution of the thesis is to study and develop small-scale processes for ionic liquid-based extractions that can intensify the liquid-liquid separations in the spent nuclear fuel reprocessing cycle. The industrial application of small scale processes requires that their hydrodynamics and mass transfer behaviour are well characterised and predicted. In addition, modelling methodologies are proposed to evaluate the applicability of the small scale extractors in reprocessing the large volumes of nuclear waste used in industrial scale. The first part of the work involves the study of the hydrodynamic behaviour of two-phase (ionic liquid-aqueous) flows. Flow pattern formations within channels have been identified for a wide range of operating conditions and were found to be strongly affected by channel size and material, fluid properties, and flow rates. The main patterns observed were plug flow, annular flow, and drop flow. Subsequently, the work focused on the investigation of the plug flow which has been found to enhance mass transfer because of circulation patterns that develop within the phases. Plug flow was thoroughly investigated in various channel sizes of different material mainly for TBP/ionic liquid (30% v/v) mixtures-nitric acid solutions, relevant to spent nuclear fuel reprocessing. Several hydrodynamic characteristics, such as plug length, plug velocity, film thickness, and pressure drop have been investigated for different ionic liquids, channel sizes, and phase flow rates. Results have been compared with literature, and new (or modified) correlations have been proposed for estimating the plug length, film thickness, and pressure drop. Furthermore, circulation patterns and mixing characteristics within aqueous plugs were investigated by means of μ-PIV (micro Particle Image Velocimetry). The mixing within a plug was locally quantified by the non-dimensional circulation time and the results were correlated with the mass transfer performance. Mixing within the plug was found to be affected by several parameters, but the most decisive one was the size of the channel; mixing was enhanced by decreasing the channel diameter. The last stage of the experimental part of this research involves studies of the extraction of dioxouranium(VI) ions from nitric acid solutions into TBP/IL mixtures (30%, v/v), relevant to spent nuclear fuel reprocessing in channels with sizes ranging from 0.5 to 2 mm ID. The effects of ionic liquid type, initial nitric acid concentration, and residence time on the extraction performance of the contactor were studied. Experimental mass transfer coefficients Abstract 2 were compared against predictive models derived from the literature and good agreement was found with those for liquid-liquid contactors. Experimental results were also compared with extraction units already in operation in spent nuclear reprocessing plants. It was found that comparable amount of spent nuclear fuel (1045 tonnes per year) can be reprocessed and extraction of dioxouranium(VI) >99% can be achieved ...

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Locally enhanced concentration and detection of oligonucleotides in a plug-based microfluidic device

Cited by 19 publications

References 46 publications

Detection of an amphiphilic biosample in a paper microchannel based on length

Detection of an amphiphilic biosample in a paper microchannel based on length

Microfluidic Devices for Forensic DNA Analysis: A Review

Studies of Intensified Small-scale Processes for Liquid-Liquid Separations in Spent Nuclear Fuel Reprocessing

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