Paper-Based Sensor for Electrochemical Detection of Silver Nanoparticle Labels by Galvanic Exchange

Cunningham, Josephine C.; Kogan, Molly R.; Tsai, Yi-Ju; Luo, Long; Richards, Ian; Crooks, Richard M.

doi:10.1021/acssensors.5b00051

Cited by 59 publications

(101 citation statements)

References 36 publications

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“…The No Slip technology is a paper-based [18] electrochemical detection platform that provides a quantitative readout. The No Slip platform comprises four wax-printed paper layers, fabricated on a single piece of paper, that are subsequently folded to form the device [19] . As shown in Figure 2 , Layer 1 contains two reservoirs, the inlet and the outlet.…”

Section: Procedures and Resultsmentioning

confidence: 99%

Managing Heart Failure at Home With Point-of-Care Diagnostics

DeGregory

Tapia

Wong

et al. 2017

IEEE J. Transl. Eng. Health Med.

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The objective of this paper is development of an inexpensive point-of-care sensor for detecting the primary heart failure marker peptide, NT-proBNP. The device technology is based on an antibody sandwich assay, but with three innovative aspects. First, chemical amplification is carried out via oxidation of silver nanoparticles (NPs) attached to signaling antibodies rather than by enzymatic amplification. The electrochemical method is faster and eliminates the need for long-term storage of enzymes. Second, the antibody sandwich is formed on mobile magnetic beads. This enhances the rate of mass transfer of the biomarker and the signaling antibody to the primary detection antibody, which is immobilized on the magnetic beads. Third, the sensor itself is fabricated on a paper platform with screen-printed electrodes. This coupled with assembly by simple paper folding, keeps the cost of the sensor low. Here, we report on two separate assays. The first is based on a simple biotin-streptavidin conjugate, which is a preliminary model for the antibody assay. The results indicate a detection limit of 2.1 pM of silver NPs and an assay time of 7 min. The actual NT-proBNP antibody assay takes somewhat longer, and the dynamic detection range is higher: 2.9–582 nM. On the basis of the results presented in this paper, we conclude that this inexpensive paper-based sensor represents a viable technology for point-of-care testing of NT-proBNP, but nevertheless several challenges remain prior to clinical implementation. These include attaining a lower detection limit and better reproducibility, and optimizing the device for human blood.

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Section: Procedures and Resultsmentioning

confidence: 99%

Managing Heart Failure at Home With Point-of-Care Diagnostics

DeGregory

Tapia

Wong

et al. 2017

IEEE J. Transl. Eng. Health Med.

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“…As an alternative to colorimetric assays, paper-based assays that rely on electrochemical detection offer many advantages, especially when it comes to performing quantitative tests [53,55,56]. Electrochemical paper-based assays have been demonstrated for a wide range of analytes with high accuracy and precision, and with the ability to detect analytes at femtomolar concentrations [6,69,70]. The electrodes for electrochemical assays are typically printed directly on the microPADs (Figure 2.8), and an external reader is used typically to perform the assay [6].…”

Section: Applications Of Paper-based Microfluidic Devicesmentioning

confidence: 99%

Paper-based diagnostic devices

Schultz

Noxon

Sisley

et al. 2017

Portable Biosensors and Point-of-Care Systems

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“…5B). The no-slip resolves the KMnO 4 instability as well as the need for layer slipping [45]. Another interesting approach was published on Journal of American Chemical Society in 2014 Figure 4 Examples of colorimetric 3D paper-based analytical devices (PADs) that show the distribution of the fluids.…”

Section: Different Configurations Of Paper-based (Bio)sensorsmentioning

confidence: 99%

“…The predried blue dye is used to indicate when the flow must be stopped and galvanic exchange detection must be initiated (aec). The mechanism of galvanic exchange is reported in (deg) [45]. (C) Scheme to quantify the laminar flow in hollow-channel PAD.…”

Section: Different Configurations Of Paper-based (Bio)sensorsmentioning

confidence: 99%