Cervical cancer classification from Pap-smears using an enhanced fuzzy C-means algorithm

Cervical cancer classification from Pap-smears using an enhanced fuzzy C-means algorithm

Globally, cervical cancer ranks as the fourth most prevalent cancer affecting women. However, it can be successfully treated if detected at an early stage. The Pap smear is a good tool for initial screening of cervical cancer, but there is the possibility of error due to human mistake. Moreover, the...

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Main Authors: Wasswa William, Andrew Ware, Annabella Habinka Basaza-Ejiri, Johnes Obungoloch
Format: Article
Language:English
Published: Elsevier 2019-01-01
Series:Informatics in Medicine Unlocked
Online Access:http://www.sciencedirect.com/science/article/pii/S2352914818302478
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spelling doaj-c47b1a11346f49c4a5b2acc93d015b162020-11-25T01:06:49ZengElsevierInformatics in Medicine Unlocked2352-91482019-01-01142333Cervical cancer classification from Pap-smears using an enhanced fuzzy C-means algorithmWasswa William0Andrew Ware1Annabella Habinka Basaza-Ejiri2Johnes Obungoloch3Department of Biomedical Sciences and Engineering, Mbarara University of Science and Technology, Mbarara, 1410, Uganda; Corresponding author.Faculty of Computing, Engineering and Science, University of South Wales, Prifysgol, UKCollege of Computing and Engineering, St. Augustine International University, Kampala, UgandaDepartment of Biomedical Sciences and Engineering, Mbarara University of Science and Technology, Mbarara, 1410, UgandaGlobally, cervical cancer ranks as the fourth most prevalent cancer affecting women. However, it can be successfully treated if detected at an early stage. The Pap smear is a good tool for initial screening of cervical cancer, but there is the possibility of error due to human mistake. Moreover, the process is tedious and time-consuming. The objective of this study was to mitigate the risk of mistake by automating the process of cervical cancer classification from Pap smear images. In this research, contrast local adaptive histogram equalization was used for image enhancement. Cell segmentation was achieved through a Trainable Weka Segmentation classifier, and a sequential elimination approach was used for debris rejection. Feature selection was achieved using simulated annealing integrated with a wrapper filter, while classification was achieved using a fuzzy c-means algorithm.The evaluation of the classifier was carried out on three different datasets (single cell images, multiple cell images and Pap smear slide images from a pathology unit). An overall classification accuracy, sensitivity and specificity of ‘98.88%, 99.28% and 97.47%‘, ‘97.64%, 98.08% and 97.16%’ and ‘96.80%, 98.40% and 95.20%’ were obtained for each dataset respectively. The higher accuracy and sensitivity of the classifier was attributed to the robustness of the feature selection method that was utilized to select cell features that would improve the classification performance, and the number of clusters used during defuzzification and classification. The evaluation and testing conducted confirmed the rationale of the approach taken, which is based on the premise that the selection of salient features embeds sufficient discriminatory information that leads to an increase in the accuracy of cervical cancer classification. Results show that the method outperforms many of the existing algorithms in terms of the false negative rate (0.72%), false positive rate (2.53%), and classification error (1.12%), when applied to the DTU/Herlev benchmark Pap smear dataset. The approach articulated in this paper is applicable to many Pap smear analysis systems, but is particularly pertinent to low-cost systems that should be of significant benefit to developing economies. Keywords: Pap-smear, Cervical cancer, Fuzzy-C meanshttp://www.sciencedirect.com/science/article/pii/S2352914818302478
collection DOAJ
language English
format Article
sources DOAJ
author Wasswa William
Andrew Ware
Annabella Habinka Basaza-Ejiri
Johnes Obungoloch
spellingShingle Wasswa William
Andrew Ware
Annabella Habinka Basaza-Ejiri
Johnes Obungoloch
Cervical cancer classification from Pap-smears using an enhanced fuzzy C-means algorithm
Informatics in Medicine Unlocked
author_facet Wasswa William
Andrew Ware
Annabella Habinka Basaza-Ejiri
Johnes Obungoloch
author_sort Wasswa William
title Cervical cancer classification from Pap-smears using an enhanced fuzzy C-means algorithm
title_short Cervical cancer classification from Pap-smears using an enhanced fuzzy C-means algorithm
title_full Cervical cancer classification from Pap-smears using an enhanced fuzzy C-means algorithm
title_fullStr Cervical cancer classification from Pap-smears using an enhanced fuzzy C-means algorithm
title_full_unstemmed Cervical cancer classification from Pap-smears using an enhanced fuzzy C-means algorithm
title_sort cervical cancer classification from pap-smears using an enhanced fuzzy c-means algorithm
publisher Elsevier
series Informatics in Medicine Unlocked
issn 2352-9148
publishDate 2019-01-01
description Globally, cervical cancer ranks as the fourth most prevalent cancer affecting women. However, it can be successfully treated if detected at an early stage. The Pap smear is a good tool for initial screening of cervical cancer, but there is the possibility of error due to human mistake. Moreover, the process is tedious and time-consuming. The objective of this study was to mitigate the risk of mistake by automating the process of cervical cancer classification from Pap smear images. In this research, contrast local adaptive histogram equalization was used for image enhancement. Cell segmentation was achieved through a Trainable Weka Segmentation classifier, and a sequential elimination approach was used for debris rejection. Feature selection was achieved using simulated annealing integrated with a wrapper filter, while classification was achieved using a fuzzy c-means algorithm.The evaluation of the classifier was carried out on three different datasets (single cell images, multiple cell images and Pap smear slide images from a pathology unit). An overall classification accuracy, sensitivity and specificity of ‘98.88%, 99.28% and 97.47%‘, ‘97.64%, 98.08% and 97.16%’ and ‘96.80%, 98.40% and 95.20%’ were obtained for each dataset respectively. The higher accuracy and sensitivity of the classifier was attributed to the robustness of the feature selection method that was utilized to select cell features that would improve the classification performance, and the number of clusters used during defuzzification and classification. The evaluation and testing conducted confirmed the rationale of the approach taken, which is based on the premise that the selection of salient features embeds sufficient discriminatory information that leads to an increase in the accuracy of cervical cancer classification. Results show that the method outperforms many of the existing algorithms in terms of the false negative rate (0.72%), false positive rate (2.53%), and classification error (1.12%), when applied to the DTU/Herlev benchmark Pap smear dataset. The approach articulated in this paper is applicable to many Pap smear analysis systems, but is particularly pertinent to low-cost systems that should be of significant benefit to developing economies. Keywords: Pap-smear, Cervical cancer, Fuzzy-C means
url http://www.sciencedirect.com/science/article/pii/S2352914818302478
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AT johnesobungoloch cervicalcancerclassificationfrompapsmearsusinganenhancedfuzzycmeansalgorithm
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