Feasibility Study of an Optical Caustic Plasmonic Light Scattering Sensor for Human Serum Anti-Dengue Protein E Antibody Detection

Feasibility Study of an Optical Caustic Plasmonic Light Scattering Sensor for Human Serum Anti-Dengue Protein E Antibody Detection

Antibody detection and accurate diagnosis of tropical diseases is essential to help prevent the spread of disease. However, most detection methods lack cost-effectiveness and field portability, which are essential features for achieving diagnosis in a timely manner. To address this, 3D-printed oblat...

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Main Authors: Antonio A. García, Lina S. Franco, Miguel A. Pirez-Gomez, José L. Pech-Pacheco, Jorge F. Mendez-Galvan, Carlos Machain-Williams, Lourdes Talavera-Aguilar, José H. Espinosa-Carrillo, Miriam M. Duarte-Villaseñor, Christian Be-Ortiz, Luz E. Espinosa-de los Monteros, Ariel Castillo-Pacheco, Julian E. Garcia-Rejon
Format: Article
Language:English
Published: MDPI AG 2017-08-01
Series:Diagnostics
Subjects:
Dengue
gold nanoparticles
optical caustic
protein E
light scattering
Online Access:https://www.mdpi.com/2075-4418/7/3/47
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spelling doaj-da1d72ad485649f1ba6e80a5f67f3b762020-11-25T02:28:58ZengMDPI AGDiagnostics2075-44182017-08-01734710.3390/diagnostics7030047diagnostics7030047Feasibility Study of an Optical Caustic Plasmonic Light Scattering Sensor for Human Serum Anti-Dengue Protein E Antibody DetectionAntonio A. García0Lina S. Franco1Miguel A. Pirez-Gomez2José L. Pech-Pacheco3Jorge F. Mendez-Galvan4Carlos Machain-Williams5Lourdes Talavera-Aguilar6José H. Espinosa-Carrillo7Miriam M. Duarte-Villaseñor8Christian Be-Ortiz9Luz E. Espinosa-de los Monteros10Ariel Castillo-Pacheco11Julian E. Garcia-Rejon12School of Biological and Health Systems Engineering, Arizona State University, Tempe, AZ 85287, USASchool of Molecular Sciences, Arizona State University, Tempe, AZ 85287, USASolexvintel S.A. de C.V., Ciudad de Mexico 01219, MexicoSolexvintel S.A. de C.V., Ciudad de Mexico 01219, MexicoHospital Infantil de México Federico Gomez, Secretaria de Salud, Ciudad de Mexico 6720, MexicoLaboratorio de Arbovirología, Centro de Investigaciones Regionales Dr. Hideyo Noguchi, Universidad Autonoma de Yucatán, Mérida 9709, MexicoLaboratorio de Arbovirología, Centro de Investigaciones Regionales Dr. Hideyo Noguchi, Universidad Autonoma de Yucatán, Mérida 9709, MexicoSolexvintel S.A. de C.V., Ciudad de Mexico 01219, MexicoSolexvintel S.A. de C.V., Ciudad de Mexico 01219, MexicoHemolab Scientific S.A. de C.V., Merida 97100, MexicoSolexvintel S.A. de C.V., Ciudad de Mexico 01219, MexicoHemolab Scientific S.A. de C.V., Merida 97100, MexicoLaboratorio de Arbovirología, Centro de Investigaciones Regionales Dr. Hideyo Noguchi, Universidad Autonoma de Yucatán, Mérida 9709, MexicoAntibody detection and accurate diagnosis of tropical diseases is essential to help prevent the spread of disease. However, most detection methods lack cost-effectiveness and field portability, which are essential features for achieving diagnosis in a timely manner. To address this, 3D-printed oblate spheroid sample chambers were fabricated to measure green light scattering of gold nanoparticles using an optical caustic focus to detect antibodies. Scattering signals of 20–200 nm gold nanoparticles using a green laser were compared to green light emitting diode (LED) light source signals and to Mie theory. The change in signal from 60 to 120 nm decreased in the order of Mie Theory > optical caustic scattering > 90° scattering. These results suggested that conjugating 60 nm gold nanoparticles and using an optical caustic system to detect plasmonic light scattering, would result in a sensitive test for detecting human antibodies in serum. Therefore, we studied the light scattering response of conjugated gold nanoparticles exposed to different concentrations of anti-protein E antibody, and a feasibility study of 10 human serum samples using dot blot and a handheld optical caustic-based sensor device. The overall agreement between detection methods suggests that the new sensor concept shows promise to detect gold nanoparticle aggregation in a homogeneous assay. Further testing and protocol optimization is needed to draw conclusions on the positive and negative predictive values for this new testing system.https://www.mdpi.com/2075-4418/7/3/47Denguegold nanoparticlesoptical causticprotein Elight scattering
collection DOAJ
language English
format Article
sources DOAJ
author Antonio A. García
Lina S. Franco
Miguel A. Pirez-Gomez
José L. Pech-Pacheco
Jorge F. Mendez-Galvan
Carlos Machain-Williams
Lourdes Talavera-Aguilar
José H. Espinosa-Carrillo
Miriam M. Duarte-Villaseñor
Christian Be-Ortiz
Luz E. Espinosa-de los Monteros
Ariel Castillo-Pacheco
Julian E. Garcia-Rejon
spellingShingle Antonio A. García
Lina S. Franco
Miguel A. Pirez-Gomez
José L. Pech-Pacheco
Jorge F. Mendez-Galvan
Carlos Machain-Williams
Lourdes Talavera-Aguilar
José H. Espinosa-Carrillo
Miriam M. Duarte-Villaseñor
Christian Be-Ortiz
Luz E. Espinosa-de los Monteros
Ariel Castillo-Pacheco
Julian E. Garcia-Rejon
Feasibility Study of an Optical Caustic Plasmonic Light Scattering Sensor for Human Serum Anti-Dengue Protein E Antibody Detection
Diagnostics
Dengue
gold nanoparticles
optical caustic
protein E
light scattering
author_facet Antonio A. García
Lina S. Franco
Miguel A. Pirez-Gomez
José L. Pech-Pacheco
Jorge F. Mendez-Galvan
Carlos Machain-Williams
Lourdes Talavera-Aguilar
José H. Espinosa-Carrillo
Miriam M. Duarte-Villaseñor
Christian Be-Ortiz
Luz E. Espinosa-de los Monteros
Ariel Castillo-Pacheco
Julian E. Garcia-Rejon
author_sort Antonio A. García
title Feasibility Study of an Optical Caustic Plasmonic Light Scattering Sensor for Human Serum Anti-Dengue Protein E Antibody Detection
title_short Feasibility Study of an Optical Caustic Plasmonic Light Scattering Sensor for Human Serum Anti-Dengue Protein E Antibody Detection
title_full Feasibility Study of an Optical Caustic Plasmonic Light Scattering Sensor for Human Serum Anti-Dengue Protein E Antibody Detection
title_fullStr Feasibility Study of an Optical Caustic Plasmonic Light Scattering Sensor for Human Serum Anti-Dengue Protein E Antibody Detection
title_full_unstemmed Feasibility Study of an Optical Caustic Plasmonic Light Scattering Sensor for Human Serum Anti-Dengue Protein E Antibody Detection
title_sort feasibility study of an optical caustic plasmonic light scattering sensor for human serum anti-dengue protein e antibody detection
publisher MDPI AG
series Diagnostics
issn 2075-4418
publishDate 2017-08-01
description Antibody detection and accurate diagnosis of tropical diseases is essential to help prevent the spread of disease. However, most detection methods lack cost-effectiveness and field portability, which are essential features for achieving diagnosis in a timely manner. To address this, 3D-printed oblate spheroid sample chambers were fabricated to measure green light scattering of gold nanoparticles using an optical caustic focus to detect antibodies. Scattering signals of 20–200 nm gold nanoparticles using a green laser were compared to green light emitting diode (LED) light source signals and to Mie theory. The change in signal from 60 to 120 nm decreased in the order of Mie Theory > optical caustic scattering > 90° scattering. These results suggested that conjugating 60 nm gold nanoparticles and using an optical caustic system to detect plasmonic light scattering, would result in a sensitive test for detecting human antibodies in serum. Therefore, we studied the light scattering response of conjugated gold nanoparticles exposed to different concentrations of anti-protein E antibody, and a feasibility study of 10 human serum samples using dot blot and a handheld optical caustic-based sensor device. The overall agreement between detection methods suggests that the new sensor concept shows promise to detect gold nanoparticle aggregation in a homogeneous assay. Further testing and protocol optimization is needed to draw conclusions on the positive and negative predictive values for this new testing system.
topic Dengue
gold nanoparticles
optical caustic
protein E
light scattering
url https://www.mdpi.com/2075-4418/7/3/47
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