Morphological Operation Residual Blocks: Enhancing 3D Morphological Feature Representation in Convolutional Neural Networks for Semantic Segmentation of Medical Images

TL;DR

This paper introduces a novel 3D morphological operation residual block for CNNs, enhancing feature extraction in medical image segmentation by embedding morphological priors, leading to improved segmentation performance.

Contribution

The paper proposes a new network block that incorporates morphological operations into CNNs, improving their ability to capture morphological features in 3D medical images.

Findings

The proposed block improves segmentation accuracy over traditional CNNs.

Embedding morphological operations enhances feature representation in medical imaging.

The method is easily integrated into existing networks for better performance.

Abstract

The shapes and morphology of the organs and tissues are important prior knowledge in medical imaging recognition and segmentation. The morphological operation is a well-known method for morphological feature extraction. As the morphological operation is performed well in hand-crafted image segmentation techniques, it is also promising to design an approach to approximate morphological operation in the convolutional networks. However, using the traditional convolutional neural network as a black-box is usually hard to specify the morphological operation action. Here, we introduced a 3D morphological operation residual block to extract morphological features in end-to-end deep learning models for semantic segmentation. This study proposed a novel network block architecture that embedded the morphological operation as an infinitely strong prior in the convolutional neural network. Several 3D deep learning models with the proposed morphological operation block were built and compared in different medical imaging segmentation tasks. Experimental results showed the proposed network achieved a relatively higher performance in the segmentation tasks comparing with the conventional approach. In conclusion, the novel network block could be easily embedded in traditional networks and efficiently reinforce the deep learning models for medical imaging segmentation.