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Detection of renal cell hydronephrosis in ultrasound kidney images: a study on the efficacy of deep convolutional neural networksopen access

Authors
Islam, UmarAl-Atawi, Abdullah A.Alwageed, Hathal SalamahMehmood, GulzarKhan, FaheemInnab, Nisreen
Issue Date
Jan-2024
Publisher
PEERJ INC
Keywords
Deep convolutional neural networks; Deep learning; Renal cell hydronephrosis near kidneys; Medical imaging; Ultrasounds
Citation
PEERJ COMPUTER SCIENCE, v.10
Journal Title
PEERJ COMPUTER SCIENCE
Volume
10
URI
https://scholarworks.bwise.kr/gachon/handle/2020.sw.gachon/90490
DOI
10.7717/peerj-cs.1797
ISSN
2376-5992
2376-5992
Abstract
In the realm of medical imaging, the early detection of kidney issues, particularly renal cell hydronephrosis, holds immense importance. Traditionally, the identification of such conditions within ultrasound images has relied on manual analysis, a laborintensive and error -prone process. However, in recent years, the emergence of deep learning -based algorithms has paved the way for automation in this domain. This study aims to harness the power of deep learning models to autonomously detect renal cell hydronephrosis in ultrasound images taken in close proximity to the kidneys. State-of-the-art architectures, including VGG16, ResNet50, InceptionV3, and the innovative Novel DCNN, were put to the test and subjected to rigorous comparisons. The performance of each model was meticulously evaluated, employing metrics such as F1 score, accuracy, precision, and recall. The results paint a compelling picture. The Novel DCNN model outshines its peers, boasting an impressive accuracy rate of 99.8%. In the same arena, InceptionV3 achieved a notable 90% accuracy, ResNet50 secured 89%, and VGG16 reached 85%. These outcomes underscore the Novel DCNN's prowess in the realm of renal cell hydronephrosis detection within ultrasound images. Moreover, this study offers a detailed view of each model's performance through confusion matrices, shedding light on their abilities to categorize true positives, true negatives, false positives, and false negatives. In this regard, the Novel DCNN model exhibits remarkable proficiency, minimizing both false positives and false negatives. In conclusion, this research underscores the Novel DCNN model's supremacy in automating the detection of renal cell hydronephrosis in ultrasound images. With its exceptional accuracy and minimal error rates, this model stands as a promising tool for healthcare professionals, facilitating early -stage diagnosis and treatment. Furthermore, the model's convergence rate and accuracy hold potential for enhancement through further exploration, including testing on larger and more diverse datasets and investigating diverse optimization strategies.
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College of IT Convergence (컴퓨터공학부(컴퓨터공학전공))
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