Related papers: Detection and Segmentation of Pancreas using Morphological Snakes and Deep Convolutional Neural Networks

Detection and Segmentation of Pancreas using Morphological Snakes and Deep Convolutional Neural Networks

URL: http://arxiv.org/abs/2302.06356v1
Date: Mon, 13 Feb 2023 13:43:50 GMT
Title: Detection and Segmentation of Pancreas using Morphological Snakes and Deep Convolutional Neural Networks
Authors: Agapi Davradou
Abstract summary: Pancreatic cancer is one of the deadliest types of cancer, with 25% of the diagnosed patients surviving for only one year and 6% of them for five. advanced analysis of such images often requires manual segmentation of the pancreas, which is a time-consuming task. This dissertation addresses this task by investigating a twostep approach for pancreas segmentation, by assisting the task with a prior rough localization or detection pancreas. The segmentation task is tackled by a modified U-Net model applied on cropped data, as well as by using a morphological active contours algorithm.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: Pancreatic cancer is one of the deadliest types of cancer, with 25% of the diagnosed patients surviving for only one year and 6% of them for five. Computed tomography (CT) screening trials have played a key role in improving early detection of pancreatic cancer, which has shown significant improvement in patient survival rates. However, advanced analysis of such images often requires manual segmentation of the pancreas, which is a time-consuming task. Moreover, pancreas presents high variability in shape, while occupying only a very small area of the entire abdominal CT scans, which increases the complexity of the problem. The rapid development of deep learning can contribute to offering robust algorithms that provide inexpensive, accurate, and user-independent segmentation results that can guide the domain experts. This dissertation addresses this task by investigating a two-step approach for pancreas segmentation, by assisting the task with a prior rough localization or detection of pancreas. This rough localization of the pancreas is provided by an estimated probability map and the detection task is achieved by using the YOLOv4 deep learning algorithm. The segmentation task is tackled by a modified U-Net model applied on cropped data, as well as by using a morphological active contours algorithm. For comparison, the U-Net model was also applied on the full CT images, which provide a coarse pancreas segmentation to serve as reference. Experimental results of the detection network on the National Institutes of Health (NIH) dataset and the pancreas tumour task dataset within the Medical Segmentation Decathlon show 50.67% mean Average Precision. The best segmentation network achieved good segmentation results on the NIH dataset, reaching 67.67% Dice score.

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