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Smartphone multiplex microcapillary diagnostics using Cygnus: development and evaluation of rapid serotype-specific NS1 detection with dengue patient samples

Smartphone multiplex microcapillary diagnostics using Cygnus: development and evaluation of rapid serotype-specific NS1 detection with dengue patient samples
Smartphone multiplex microcapillary diagnostics using Cygnus: development and evaluation of rapid serotype-specific NS1 detection with dengue patient samples
Laboratory diagnosis of dengue virus (DENV) infection including DENV serotyping requires skilled labor and well-equipped settings. DENV NS1 lateral flow rapid test (LFT) provides simplicity but lacks ability to identify serotype. A simple, economical, point-of-care device for serotyping is still needed. We present a gravity driven, smartphone compatible, microfluidic device using microcapillary film (MCF) to perform multiplex serotype-specific immunoassay detection of dengue virus NS1. A novel device–termed Cygnus–with a stackable design allows analysis of 1 to 12 samples in parallel in 40 minutes. A sandwich enzyme immunoassay was developed to specifically detect NS1 of all four DENV serotypes in one 60-μl plasma sample. This test aims to bridge the gap between rapid LFT and laboratory microplate ELISAs in terms of sensitivity, usability, accessibility and speed. The Cygnus NS1 assay was evaluated with retrospective undiluted plasma samples from 205 DENV infected patients alongside 50 febrile illness negative controls. Against the gold standard RT-PCR, clinical sensitivity for Cygnus was 82% in overall (with 78, 78, 80 and 76% for DENV1-4, respectively), comparable to an in-house serotyping NS1 microplate ELISA (82% vs 83%) but superior to commercial NS1-LFT (82% vs 74%). Specificity of the Cygnus device was 86%, lower than that of NS1-microplate ELISA and NS1-LFT (100% and 98%, respectively). For Cygnus positive samples, identification of DENV serotypes DENV2-4 matched those by RT-PCR by 100%, but for DENV1 capillaries false positives were seen, suggesting an improved DENV1 capture antibody is needed to increase specificity. Overall performance of Cygnus showed substantial agreement to NS1-microplate ELISA (κ = 0.68, 95%CI 0.58–0.77) and NS1-LFT (κ = 0.71, 95%CI 0.63–0.80). Although further refinement for DENV-1 NS1 detection is needed, the advantages of multiplexing and rapid processing time, this Cygnus device could deliver point-of-care NS1 antigen testing including serotyping for timely DENV diagnosis for epidemic surveillance and outbreak prediction.
1935-2727
Needs, S.H.
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Sirivisoot, S.
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Jegouic, S.
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Prommool, T.
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Luangaram, P.
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Srisawat, C.
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Sriraksa, K.
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Limpitikul, W.
e8df6a80-6cb2-42fc-a3e1-ef02f5944ab8
Mairiang, D.
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Malasit, P.
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Avirutnan, P.
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Puttikhunt, C.
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Edwards, A.D.
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Needs, S.H.
6dd8aa24-d1de-4429-9b0a-65e82204db58
Sirivisoot, S.
f48e47bc-2330-4859-a53f-8186b7b6c07c
Jegouic, S.
48757505-a653-4ab5-a5df-cefcd336a48f
Prommool, T.
25c4eb9e-d954-4eae-8cd3-52a9a09df7e1
Luangaram, P.
173bf3f1-daea-43af-91a2-ad1e5af6af75
Srisawat, C.
1c7c0490-dec6-4b15-bda1-0625e95ff6e3
Sriraksa, K.
602c95d1-c05f-414f-bf0a-31cd73be2d8b
Limpitikul, W.
e8df6a80-6cb2-42fc-a3e1-ef02f5944ab8
Mairiang, D.
1f46dd13-b55b-430e-a954-ab05adc32caa
Malasit, P.
1eb4736a-af70-448e-a202-d459dbd6a6df
Avirutnan, P.
2c4d0e06-d2c1-439f-a120-56ffc4e2480c
Puttikhunt, C.
e231ef00-8d16-4953-9546-0883d7ee0b01
Edwards, A.D.
bc3d9b93-a533-4144-937b-c673d0a28879

Needs, S.H., Sirivisoot, S., Jegouic, S., Prommool, T., Luangaram, P., Srisawat, C., Sriraksa, K., Limpitikul, W., Mairiang, D., Malasit, P., Avirutnan, P., Puttikhunt, C. and Edwards, A.D. (2022) Smartphone multiplex microcapillary diagnostics using Cygnus: development and evaluation of rapid serotype-specific NS1 detection with dengue patient samples. PLoS Neglected Tropical Diseases, 16 (4), [e0010266]. (doi:10.1371/journal.pntd.0010266).

Record type: Article

Abstract

Laboratory diagnosis of dengue virus (DENV) infection including DENV serotyping requires skilled labor and well-equipped settings. DENV NS1 lateral flow rapid test (LFT) provides simplicity but lacks ability to identify serotype. A simple, economical, point-of-care device for serotyping is still needed. We present a gravity driven, smartphone compatible, microfluidic device using microcapillary film (MCF) to perform multiplex serotype-specific immunoassay detection of dengue virus NS1. A novel device–termed Cygnus–with a stackable design allows analysis of 1 to 12 samples in parallel in 40 minutes. A sandwich enzyme immunoassay was developed to specifically detect NS1 of all four DENV serotypes in one 60-μl plasma sample. This test aims to bridge the gap between rapid LFT and laboratory microplate ELISAs in terms of sensitivity, usability, accessibility and speed. The Cygnus NS1 assay was evaluated with retrospective undiluted plasma samples from 205 DENV infected patients alongside 50 febrile illness negative controls. Against the gold standard RT-PCR, clinical sensitivity for Cygnus was 82% in overall (with 78, 78, 80 and 76% for DENV1-4, respectively), comparable to an in-house serotyping NS1 microplate ELISA (82% vs 83%) but superior to commercial NS1-LFT (82% vs 74%). Specificity of the Cygnus device was 86%, lower than that of NS1-microplate ELISA and NS1-LFT (100% and 98%, respectively). For Cygnus positive samples, identification of DENV serotypes DENV2-4 matched those by RT-PCR by 100%, but for DENV1 capillaries false positives were seen, suggesting an improved DENV1 capture antibody is needed to increase specificity. Overall performance of Cygnus showed substantial agreement to NS1-microplate ELISA (κ = 0.68, 95%CI 0.58–0.77) and NS1-LFT (κ = 0.71, 95%CI 0.63–0.80). Although further refinement for DENV-1 NS1 detection is needed, the advantages of multiplexing and rapid processing time, this Cygnus device could deliver point-of-care NS1 antigen testing including serotyping for timely DENV diagnosis for epidemic surveillance and outbreak prediction.

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journal.pntd.0010266 - Version of Record
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Accepted/In Press date: 18 February 2022
Published date: 7 April 2022

Identifiers

Local EPrints ID: 500138
URI: http://eprints.soton.ac.uk/id/eprint/500138
DOI: doi:10.1371/journal.pntd.0010266
ISSN: 1935-2727
PURE UUID: b72d344f-62a5-4c27-a2f3-8def0d6f19af
ORCID for A.D. Edwards: ORCID iD orcid.org/0000-0003-2369-989X

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Date deposited: 15 Apr 2025 17:22
Last modified: 16 Apr 2025 02:14

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Contributors

Author: S.H. Needs
Author: S. Sirivisoot
Author: S. Jegouic
Author: T. Prommool
Author: P. Luangaram
Author: C. Srisawat
Author: K. Sriraksa
Author: W. Limpitikul
Author: D. Mairiang
Author: P. Malasit
Author: P. Avirutnan
Author: C. Puttikhunt
Author: A.D. Edwards ORCID iD

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