Abstract
Liver segmentation in CT images has multiple clinical applications and is expanding in scope. Clinicians can employ segmentation for pathological diagnosis of liver disease, surgical planning, visualization and volumetric assessment to select the appropriate treatment. However, segmentation of the liver is still a challenging task due to the low contrast in medical images, tissue similarity with neighbor abdominal organs and high scale and shape variability. Recently, deep learning models are the state of art in many natural images processing tasks such as detection, classification, and segmentation due to the availability of annotated data. In the medical field, labeled data is limited due to privacy, expert need, and a time-consuming labeling process. In this paper, we present an efficient model combining a selective pre-processing, augmentation, post-processing and an improved SegCaps network. Our proposed model is an end-to-end learning, fully automatic with a good generalization score on such limited amount of training data. The model has been validated on two 3D liver segmentation datasets and have obtained competitive segmentation results.
Highlights
Liver segmentation refers to the delimitation of the hepatic zone in the abdomen, it plays an important role in the diagnostic process of the liver
Deep learning has been very successful in several areas more precisely on image processing tasks, this success is due to the high availability of labeled data necessary for these algorithms
In our work we proposed a model for ct liver segmentation based on SegCaps [13] network using convolution layers, max-pooling layers, transposed convolution layer, dropout, primary capsule layer, digital capsule layer and fully connected layers layers
Summary
Liver segmentation refers to the delimitation of the hepatic zone in the abdomen, it plays an important role in the diagnostic process of the liver. Deep learning has been very successful in several areas more precisely on image processing tasks, this success is due to the high availability of labeled data necessary for these algorithms. In the medical field it is difficult to have a labeled dataset with sufficient amount of data, and this represents a critical issue for applying deep learning models. To meet these challenges, we are introducing an end-to-end model for liver segmentation using the capsules networks.
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