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A Liver Damage Prediction Using Partial Differential Segmentation with Improved Convolutional Neural Network

BACKGROUND: The liver is one of the most significant and most essential organs in the human body. It is divided into two granular lobes, one on the right and one on the left, connected by a bile duct. The liver is essential in the removal of waste products from human food consumption, the creation o...

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Autores principales: Sumathy, B., Dadheech, Pankaj, Jain, Monika, Saxena, Ankur, Hemalatha, S., Liu, Wenqi, Nuagah, Stephen Jeswinde
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Hindawi 2022
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8898868/
https://www.ncbi.nlm.nih.gov/pubmed/35265300
http://dx.doi.org/10.1155/2022/4055491
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author Sumathy, B.
Dadheech, Pankaj
Jain, Monika
Saxena, Ankur
Hemalatha, S.
Liu, Wenqi
Nuagah, Stephen Jeswinde
author_facet Sumathy, B.
Dadheech, Pankaj
Jain, Monika
Saxena, Ankur
Hemalatha, S.
Liu, Wenqi
Nuagah, Stephen Jeswinde
author_sort Sumathy, B.
collection PubMed
description BACKGROUND: The liver is one of the most significant and most essential organs in the human body. It is divided into two granular lobes, one on the right and one on the left, connected by a bile duct. The liver is essential in the removal of waste products from human food consumption, the creation of bile, the regulation of metabolic activities, the cleaning of the blood by sensitizing digestive management, and the storage of vitamins and minerals. To perform the classification of liver illnesses using computed tomography (CT scans), two critical phases must first be completed: liver segmentation and categorization. The most difficult challenge in categorizing liver disease is distinguishing the liver from the other organs near it. Methodology. Liver biopsy is a kind of invasive diagnostic procedure, widely regarded as the gold standard for accurately estimating the severity of liver disease. Noninvasive approaches for examining liver illnesses, such as blood serum markers and medical imaging (ultrasound, magnetic resonance MR, and CT) have also been developed. This approach uses the Partial Differential Technique (PDT) to separate the liver from the other organs and Level Set Methodology (LSM) for separating the cancer location from the surrounding tissue based on the projected pictures used as input. With the help of an Improved Convolutional Classifier, the categorization of different phases may be accomplished. RESULTS: Several accuracies, sensitivity, and specificity measurements are produced to assess the categorization of LSM using an Improved Convolutional classifier. Approximately, 97.5% of the performance accuracy of the liver categorization is achieved with a 94.5% continuous interval (CI) of [0.6775 1.0000] and an error rate of 2.1%. The suggested method's performance is compared to that of two existing algorithms, and the sensitivity and specificity provide an overall average of 96% and 93%, respectively, with 95% Continuous Interval of [0.7513 1.0000] and [0.7126 1.0000] for sensitivity and specificity, respectively.
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spelling pubmed-88988682022-03-08 A Liver Damage Prediction Using Partial Differential Segmentation with Improved Convolutional Neural Network Sumathy, B. Dadheech, Pankaj Jain, Monika Saxena, Ankur Hemalatha, S. Liu, Wenqi Nuagah, Stephen Jeswinde J Healthc Eng Research Article BACKGROUND: The liver is one of the most significant and most essential organs in the human body. It is divided into two granular lobes, one on the right and one on the left, connected by a bile duct. The liver is essential in the removal of waste products from human food consumption, the creation of bile, the regulation of metabolic activities, the cleaning of the blood by sensitizing digestive management, and the storage of vitamins and minerals. To perform the classification of liver illnesses using computed tomography (CT scans), two critical phases must first be completed: liver segmentation and categorization. The most difficult challenge in categorizing liver disease is distinguishing the liver from the other organs near it. Methodology. Liver biopsy is a kind of invasive diagnostic procedure, widely regarded as the gold standard for accurately estimating the severity of liver disease. Noninvasive approaches for examining liver illnesses, such as blood serum markers and medical imaging (ultrasound, magnetic resonance MR, and CT) have also been developed. This approach uses the Partial Differential Technique (PDT) to separate the liver from the other organs and Level Set Methodology (LSM) for separating the cancer location from the surrounding tissue based on the projected pictures used as input. With the help of an Improved Convolutional Classifier, the categorization of different phases may be accomplished. RESULTS: Several accuracies, sensitivity, and specificity measurements are produced to assess the categorization of LSM using an Improved Convolutional classifier. Approximately, 97.5% of the performance accuracy of the liver categorization is achieved with a 94.5% continuous interval (CI) of [0.6775 1.0000] and an error rate of 2.1%. The suggested method's performance is compared to that of two existing algorithms, and the sensitivity and specificity provide an overall average of 96% and 93%, respectively, with 95% Continuous Interval of [0.7513 1.0000] and [0.7126 1.0000] for sensitivity and specificity, respectively. Hindawi 2022-02-27 /pmc/articles/PMC8898868/ /pubmed/35265300 http://dx.doi.org/10.1155/2022/4055491 Text en Copyright © 2022 B. Sumathy et al. https://creativecommons.org/licenses/by/4.0/This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Research Article
Sumathy, B.
Dadheech, Pankaj
Jain, Monika
Saxena, Ankur
Hemalatha, S.
Liu, Wenqi
Nuagah, Stephen Jeswinde
A Liver Damage Prediction Using Partial Differential Segmentation with Improved Convolutional Neural Network
title A Liver Damage Prediction Using Partial Differential Segmentation with Improved Convolutional Neural Network
title_full A Liver Damage Prediction Using Partial Differential Segmentation with Improved Convolutional Neural Network
title_fullStr A Liver Damage Prediction Using Partial Differential Segmentation with Improved Convolutional Neural Network
title_full_unstemmed A Liver Damage Prediction Using Partial Differential Segmentation with Improved Convolutional Neural Network
title_short A Liver Damage Prediction Using Partial Differential Segmentation with Improved Convolutional Neural Network
title_sort liver damage prediction using partial differential segmentation with improved convolutional neural network
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8898868/
https://www.ncbi.nlm.nih.gov/pubmed/35265300
http://dx.doi.org/10.1155/2022/4055491
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