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Fuzzy Model for the Automatic Recognition of Human Dendritic Cells

Background and objective: Nowadays, foodborne illness is considered one of the most outgrowing diseases in the world, and studies show that its rate increases sharply each year. Foodborne illness is considered a public health problem which is caused by numerous factors, such as food intoxications, a...

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Autores principales: Braiki, Marwa, Nasreddine, Kamal, Benzinou, Abdesslam, Hymery, Nolwenn
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2023
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9866805/
https://www.ncbi.nlm.nih.gov/pubmed/36662111
http://dx.doi.org/10.3390/jimaging9010013
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author Braiki, Marwa
Nasreddine, Kamal
Benzinou, Abdesslam
Hymery, Nolwenn
author_facet Braiki, Marwa
Nasreddine, Kamal
Benzinou, Abdesslam
Hymery, Nolwenn
author_sort Braiki, Marwa
collection PubMed
description Background and objective: Nowadays, foodborne illness is considered one of the most outgrowing diseases in the world, and studies show that its rate increases sharply each year. Foodborne illness is considered a public health problem which is caused by numerous factors, such as food intoxications, allergies, intolerances, etc. Mycotoxin is one of the food contaminants which is caused by various species of molds (or fungi), which, in turn, causes intoxications that can be chronic or acute. Thus, even low concentrations of Mycotoxin have a severely harmful impact on human health. It is, therefore, necessary to develop an assessment tool for evaluating their impact on the immune response. Recently, researchers have approved a new method of investigation using human dendritic cells, yet the analysis of the geometric properties of these cells is still visual. Moreover, this type of analysis is subjective, time-consuming, and difficult to perform manually. In this paper, we address the automation of this evaluation using image-processing techniques. Methods: Automatic classification approaches of microscopic dendritic cell images are developed to provide a fast and objective evaluation. The first proposed classifier is based on support vector machines (SVM) and Fisher’s linear discriminant analysis (FLD) method. The FLD–SVM classifier does not provide satisfactory results due to the significant confusion between the inhibited cells on one hand, and the other two cell types (mature and immature) on the other hand. Then, another strategy was suggested to enhance dendritic cell recognition results that are emitted from microscopic images. This strategy is mainly based on fuzzy logic which allows us to consider the uncertainties and inaccuracies of the given data. Results: These proposed methods are tested on a real dataset consisting of 421 images of microscopic dendritic cells, where the fuzzy classification scheme efficiently improved the classification results by successfully classifying 96.77% of the dendritic cells. Conclusions: The fuzzy classification-based tools provide cell maturity and inhibition rates which help biologists evaluate severe health impacts caused by food contaminants.
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spelling pubmed-98668052023-01-22 Fuzzy Model for the Automatic Recognition of Human Dendritic Cells Braiki, Marwa Nasreddine, Kamal Benzinou, Abdesslam Hymery, Nolwenn J Imaging Article Background and objective: Nowadays, foodborne illness is considered one of the most outgrowing diseases in the world, and studies show that its rate increases sharply each year. Foodborne illness is considered a public health problem which is caused by numerous factors, such as food intoxications, allergies, intolerances, etc. Mycotoxin is one of the food contaminants which is caused by various species of molds (or fungi), which, in turn, causes intoxications that can be chronic or acute. Thus, even low concentrations of Mycotoxin have a severely harmful impact on human health. It is, therefore, necessary to develop an assessment tool for evaluating their impact on the immune response. Recently, researchers have approved a new method of investigation using human dendritic cells, yet the analysis of the geometric properties of these cells is still visual. Moreover, this type of analysis is subjective, time-consuming, and difficult to perform manually. In this paper, we address the automation of this evaluation using image-processing techniques. Methods: Automatic classification approaches of microscopic dendritic cell images are developed to provide a fast and objective evaluation. The first proposed classifier is based on support vector machines (SVM) and Fisher’s linear discriminant analysis (FLD) method. The FLD–SVM classifier does not provide satisfactory results due to the significant confusion between the inhibited cells on one hand, and the other two cell types (mature and immature) on the other hand. Then, another strategy was suggested to enhance dendritic cell recognition results that are emitted from microscopic images. This strategy is mainly based on fuzzy logic which allows us to consider the uncertainties and inaccuracies of the given data. Results: These proposed methods are tested on a real dataset consisting of 421 images of microscopic dendritic cells, where the fuzzy classification scheme efficiently improved the classification results by successfully classifying 96.77% of the dendritic cells. Conclusions: The fuzzy classification-based tools provide cell maturity and inhibition rates which help biologists evaluate severe health impacts caused by food contaminants. MDPI 2023-01-06 /pmc/articles/PMC9866805/ /pubmed/36662111 http://dx.doi.org/10.3390/jimaging9010013 Text en © 2023 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Braiki, Marwa
Nasreddine, Kamal
Benzinou, Abdesslam
Hymery, Nolwenn
Fuzzy Model for the Automatic Recognition of Human Dendritic Cells
title Fuzzy Model for the Automatic Recognition of Human Dendritic Cells
title_full Fuzzy Model for the Automatic Recognition of Human Dendritic Cells
title_fullStr Fuzzy Model for the Automatic Recognition of Human Dendritic Cells
title_full_unstemmed Fuzzy Model for the Automatic Recognition of Human Dendritic Cells
title_short Fuzzy Model for the Automatic Recognition of Human Dendritic Cells
title_sort fuzzy model for the automatic recognition of human dendritic cells
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9866805/
https://www.ncbi.nlm.nih.gov/pubmed/36662111
http://dx.doi.org/10.3390/jimaging9010013
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