Serological Surveillance Development for Tropical Infectious Diseases Using Simultaneous Microsphere-Based Multiplex Assays and Finite Mixture Models

BACKGROUND: A strategy to combat infectious diseases, including neglected tropical diseases (NTDs), will depend on the development of reliable epidemiological surveillance methods. To establish a simple and practical seroprevalence detection system, we developed a microsphere-based multiplex immunoa...

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Autores principales: Fujii, Yoshito, Kaneko, Satoshi, Nzou, Samson Muuo, Mwau, Matilu, Njenga, Sammy M., Tanigawa, Chihiro, Kimotho, James, Mwangi, Anne Wanjiru, Kiche, Ibrahim, Matsumoto, Sohkichi, Niki, Mamiko, Osada-Oka, Mayuko, Ichinose, Yoshio, Inoue, Manabu, Itoh, Makoto, Tachibana, Hiroshi, Ishii, Kazunari, Tsuboi, Takafumi, Yoshida, Lay Myint, Mondal, Dinesh, Haque, Rashidul, Hamano, Shinjiro, Changoma, Mwatasa, Hoshi, Tomonori, Kamo, Ken-ichi, Karama, Mohamed, Miura, Masashi, Hirayama, Kenji
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2014
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4117437/
https://www.ncbi.nlm.nih.gov/pubmed/25078404
http://dx.doi.org/10.1371/journal.pntd.0003040
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author Fujii, Yoshito
Kaneko, Satoshi
Nzou, Samson Muuo
Mwau, Matilu
Njenga, Sammy M.
Tanigawa, Chihiro
Kimotho, James
Mwangi, Anne Wanjiru
Kiche, Ibrahim
Matsumoto, Sohkichi
Niki, Mamiko
Osada-Oka, Mayuko
Ichinose, Yoshio
Inoue, Manabu
Itoh, Makoto
Tachibana, Hiroshi
Ishii, Kazunari
Tsuboi, Takafumi
Yoshida, Lay Myint
Mondal, Dinesh
Haque, Rashidul
Hamano, Shinjiro
Changoma, Mwatasa
Hoshi, Tomonori
Kamo, Ken-ichi
Karama, Mohamed
Miura, Masashi
Hirayama, Kenji
author_facet Fujii, Yoshito
Kaneko, Satoshi
Nzou, Samson Muuo
Mwau, Matilu
Njenga, Sammy M.
Tanigawa, Chihiro
Kimotho, James
Mwangi, Anne Wanjiru
Kiche, Ibrahim
Matsumoto, Sohkichi
Niki, Mamiko
Osada-Oka, Mayuko
Ichinose, Yoshio
Inoue, Manabu
Itoh, Makoto
Tachibana, Hiroshi
Ishii, Kazunari
Tsuboi, Takafumi
Yoshida, Lay Myint
Mondal, Dinesh
Haque, Rashidul
Hamano, Shinjiro
Changoma, Mwatasa
Hoshi, Tomonori
Kamo, Ken-ichi
Karama, Mohamed
Miura, Masashi
Hirayama, Kenji
author_sort Fujii, Yoshito
collection PubMed
description BACKGROUND: A strategy to combat infectious diseases, including neglected tropical diseases (NTDs), will depend on the development of reliable epidemiological surveillance methods. To establish a simple and practical seroprevalence detection system, we developed a microsphere-based multiplex immunoassay system and evaluated utility using samples obtained in Kenya. METHODS: We developed a microsphere-based immuno-assay system to simultaneously measure the individual levels of plasma antibody (IgG) against 8 antigens derived from 6 pathogens: Entamoeba histolytica (C-IgL), Leishmania donovani (KRP42), Toxoplasma gondii (SAG1), Wuchereria bancrofti (SXP1), HIV (gag, gp120 and gp41), and Vibrio cholerae (cholera toxin). The assay system was validated using appropriate control samples. The assay system was applied for 3411 blood samples collected from the general population randomly selected from two health and demographic surveillance system (HDSS) cohorts in the coastal and western regions of Kenya. The immunoassay values distribution for each antigen was mathematically defined by a finite mixture model, and cut-off values were optimized. FINDINGS: Sensitivities and specificities for each antigen ranged between 71 and 100%. Seroprevalences for each pathogen from the Kwale and Mbita HDSS sites (respectively) were as follows: HIV, 3.0% and 20.1%; L. donovani, 12.6% and 17.3%; E. histolytica, 12.8% and 16.6%; and T. gondii, 30.9% and 28.2%. Seroprevalences of W. bancrofti and V. cholerae showed relatively high figures, especially among children. The results might be affected by immunological cross reactions between W. bancrofti-SXP1 and other parasitic infections; and cholera toxin and the enterotoxigenic E. coli (ETEC), respectively. INTERPRETATION: A microsphere-based multi-serological assay system can provide an opportunity to comprehensively grasp epidemiological features for NTDs. By adding pathogens and antigens of interest, optimized made-to-order high-quality programs can be established to utilize limited resources to effectively control NTDs in Africa.
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spelling pubmed-41174372014-08-04 Serological Surveillance Development for Tropical Infectious Diseases Using Simultaneous Microsphere-Based Multiplex Assays and Finite Mixture Models Fujii, Yoshito Kaneko, Satoshi Nzou, Samson Muuo Mwau, Matilu Njenga, Sammy M. Tanigawa, Chihiro Kimotho, James Mwangi, Anne Wanjiru Kiche, Ibrahim Matsumoto, Sohkichi Niki, Mamiko Osada-Oka, Mayuko Ichinose, Yoshio Inoue, Manabu Itoh, Makoto Tachibana, Hiroshi Ishii, Kazunari Tsuboi, Takafumi Yoshida, Lay Myint Mondal, Dinesh Haque, Rashidul Hamano, Shinjiro Changoma, Mwatasa Hoshi, Tomonori Kamo, Ken-ichi Karama, Mohamed Miura, Masashi Hirayama, Kenji PLoS Negl Trop Dis Research Article BACKGROUND: A strategy to combat infectious diseases, including neglected tropical diseases (NTDs), will depend on the development of reliable epidemiological surveillance methods. To establish a simple and practical seroprevalence detection system, we developed a microsphere-based multiplex immunoassay system and evaluated utility using samples obtained in Kenya. METHODS: We developed a microsphere-based immuno-assay system to simultaneously measure the individual levels of plasma antibody (IgG) against 8 antigens derived from 6 pathogens: Entamoeba histolytica (C-IgL), Leishmania donovani (KRP42), Toxoplasma gondii (SAG1), Wuchereria bancrofti (SXP1), HIV (gag, gp120 and gp41), and Vibrio cholerae (cholera toxin). The assay system was validated using appropriate control samples. The assay system was applied for 3411 blood samples collected from the general population randomly selected from two health and demographic surveillance system (HDSS) cohorts in the coastal and western regions of Kenya. The immunoassay values distribution for each antigen was mathematically defined by a finite mixture model, and cut-off values were optimized. FINDINGS: Sensitivities and specificities for each antigen ranged between 71 and 100%. Seroprevalences for each pathogen from the Kwale and Mbita HDSS sites (respectively) were as follows: HIV, 3.0% and 20.1%; L. donovani, 12.6% and 17.3%; E. histolytica, 12.8% and 16.6%; and T. gondii, 30.9% and 28.2%. Seroprevalences of W. bancrofti and V. cholerae showed relatively high figures, especially among children. The results might be affected by immunological cross reactions between W. bancrofti-SXP1 and other parasitic infections; and cholera toxin and the enterotoxigenic E. coli (ETEC), respectively. INTERPRETATION: A microsphere-based multi-serological assay system can provide an opportunity to comprehensively grasp epidemiological features for NTDs. By adding pathogens and antigens of interest, optimized made-to-order high-quality programs can be established to utilize limited resources to effectively control NTDs in Africa. Public Library of Science 2014-07-31 /pmc/articles/PMC4117437/ /pubmed/25078404 http://dx.doi.org/10.1371/journal.pntd.0003040 Text en © 2014 Fujii et al http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Fujii, Yoshito
Kaneko, Satoshi
Nzou, Samson Muuo
Mwau, Matilu
Njenga, Sammy M.
Tanigawa, Chihiro
Kimotho, James
Mwangi, Anne Wanjiru
Kiche, Ibrahim
Matsumoto, Sohkichi
Niki, Mamiko
Osada-Oka, Mayuko
Ichinose, Yoshio
Inoue, Manabu
Itoh, Makoto
Tachibana, Hiroshi
Ishii, Kazunari
Tsuboi, Takafumi
Yoshida, Lay Myint
Mondal, Dinesh
Haque, Rashidul
Hamano, Shinjiro
Changoma, Mwatasa
Hoshi, Tomonori
Kamo, Ken-ichi
Karama, Mohamed
Miura, Masashi
Hirayama, Kenji
Serological Surveillance Development for Tropical Infectious Diseases Using Simultaneous Microsphere-Based Multiplex Assays and Finite Mixture Models
title Serological Surveillance Development for Tropical Infectious Diseases Using Simultaneous Microsphere-Based Multiplex Assays and Finite Mixture Models
title_full Serological Surveillance Development for Tropical Infectious Diseases Using Simultaneous Microsphere-Based Multiplex Assays and Finite Mixture Models
title_fullStr Serological Surveillance Development for Tropical Infectious Diseases Using Simultaneous Microsphere-Based Multiplex Assays and Finite Mixture Models
title_full_unstemmed Serological Surveillance Development for Tropical Infectious Diseases Using Simultaneous Microsphere-Based Multiplex Assays and Finite Mixture Models
title_short Serological Surveillance Development for Tropical Infectious Diseases Using Simultaneous Microsphere-Based Multiplex Assays and Finite Mixture Models
title_sort serological surveillance development for tropical infectious diseases using simultaneous microsphere-based multiplex assays and finite mixture models
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4117437/
https://www.ncbi.nlm.nih.gov/pubmed/25078404
http://dx.doi.org/10.1371/journal.pntd.0003040
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