Two-Color Lateral Flow Assay for Multiplex Detection of Causative Agents Behind Acute Febrile Illnesses.

Acute undifferentiated febrile illnesses (AFIs) represent a significant health burden worldwide. AFIs can be caused by infection with a number of different pathogens including dengue (DENV) and Chikungunya viruses (CHIKV), and their differential diagnosis is critical to the proper patient management. While rapid diagnostic tests (RDTs) for the detection of IgG/IgM against a single pathogen have played a significant role in enabling the rapid diagnosis in the point-of-care settings, the state-of-the-art assay scheme is incompatible with the multiplex detection of IgG/IgM to more than one pathogen. In this paper, we present a novel assay scheme that uses two-color latex labels for rapid multiplex detection of IgG/IgM. Adapting this assay scheme, we show that 4-plex detection of the IgG/IgM antibodies to DENV and CHIKV is possible in 10 min by using it to correctly identify 12 different diagnostic scenarios. We also show that blue, mixed, and red colorimetric signals corresponding to IgG, IgG/IgM, and IgM positive cases, respectively, can be associated with distinct ranges of hue intensities, which could be exploited by analyzer systems in the future for making accurate, automated diagnosis. This represents the first steps toward the development of a single RDT-based system for the differential diagnosis of numerous AFIs of interest.

[1]  M. Albert,et al.  Biology and pathogenesis of chikungunya virus , 2010, Nature Reviews Microbiology.

[2]  John S. Brownstein,et al.  The global distribution and burden of dengue , 2013, Nature.

[3]  David Erickson,et al.  NutriPhone: a mobile platform for low-cost point-of-care quantification of vitamin B12 concentrations , 2016, Scientific Reports.

[4]  C. Woods,et al.  Evaluation of Four Commercially Available Rapid Serologic Tests for Diagnosis of Leptospirosis , 2003, Journal of Clinical Microbiology.

[5]  A. Prieur,et al.  A child with a systemic febrile illness - differential diagnosis and management. , 2006, Best practice & research. Clinical rheumatology.

[6]  Alan Geater,et al.  Differential Diagnosis of Chikungunya, Dengue Viral Infection and Other Acute Febrile Illnesses in Children , 2012, The Pediatric infectious disease journal.

[7]  P. Weinstein,et al.  Leptospirosis: an emerging disease in travellers. , 2010, Travel medicine and infectious disease.

[8]  R. Lourenço-de-Oliveira,et al.  High Level of Vector Competence of Aedes aegypti and Aedes albopictus from Ten American Countries as a Crucial Factor in the Spread of Chikungunya Virus , 2014, Journal of Virology.

[9]  A. Rai,et al.  A smartphone dongle for diagnosis of infectious diseases at the point of care , 2015, Science Translational Medicine.

[10]  S. Chandy,et al.  Acute undifferentiated febrile illness in adult hospitalized patients: the disease spectrum and diagnostic predictors – an experience from a tertiary care hospital in South India , 2010, Tropical doctor.

[11]  Aydogan Ozcan,et al.  Integrated rapid-diagnostic-test reader platform on a cellphone. , 2012, Lab on a chip.

[12]  J. Parry,et al.  SENSITIVE ASSAYS FOR VIRAL ANTIBODIES IN SALIVA: AN ALTERNATIVE TO TESTS ON SERUM , 1987, The Lancet.

[13]  P. Buchy,et al.  Field Evaluation and Impact on Clinical Management of a Rapid Diagnostic Kit That Detects Dengue NS1, IgM and IgG , 2012, PLoS neglected tropical diseases.

[14]  B. Horne,et al.  Relation of vitamin D deficiency to cardiovascular risk factors, disease status, and incident events in a general healthcare population. , 2010, The American journal of cardiology.

[15]  David Erickson,et al.  A smartphone platform for the quantification of vitamin D levels. , 2014, Lab on a chip.

[16]  F. Chappuis,et al.  Rapid diagnostic tests for non-malarial febrile illness in the tropics. , 2013, Clinical microbiology and infection : the official publication of the European Society of Clinical Microbiology and Infectious Diseases.

[17]  D. Erickson,et al.  Smartphone based health accessory for colorimetric detection of biomarkers in sweat and saliva. , 2013, Lab on a chip.

[18]  Wanhong Xu,et al.  Development of a multiplex lateral flow strip test for foot-and-mouth disease virus detection using monoclonal antibodies. , 2015, Journal of virological methods.

[19]  H. J. de Silva,et al.  Evaluation of Six Commercial Point-of-Care Tests for Diagnosis of Acute Dengue Infections: the Need for Combining NS1 Antigen and IgM/IgG Antibody Detection To Achieve Acceptable Levels of Accuracy , 2011, Clinical and Vaccine Immunology.

[20]  Li Jiang,et al.  Smartphone technology can be transformative to the deployment of lab-on-chip diagnostics. , 2014, Lab on a chip.

[21]  Kimberly Hamad-Schifferli,et al.  Multicolored silver nanoparticles for multiplexed disease diagnostics: distinguishing dengue, yellow fever, and Ebola viruses. , 2015, Lab on a chip.

[22]  S. de Saeger,et al.  Multiplex lateral flow immunoassay for mycotoxin determination. , 2014, Analytical chemistry.