Automatic Left Ventricle Recognition, Segmentation and Tracking in Cardiac Ultrasound Image Sequences

Abstract

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In this study, we propose a novel method incorporating faster region-based convolutional neural network and active shape model to automatically recognize, segment, and track the left ventricle in cardiac ultrasound image sequences, respectively. Ultrasound images typically contain noise and artifacts. The conventional filters cannot preserve the edges of image contours, and thus blurry images are often obtained. In this study, we propose an improved adaptive anisotropic diffusion filter to effectively reduce noise and reinforce image contours. In addition, because of the shape and appearance of the left ventricle vary considerably between adjacent images, conventional methods cannot automatically identify the position of the left ventricle or accurately segment them. A novel method that combines the faster region-based convolutional neural network with the active shape model is proposed to automatically recognize, segment, and track the left ventricle in cardiac ultrasound image sequences. Compared with four state-of-the-art approaches, the method proposed in this study can be applied to accurately segment and track the left ventricle in cardiac ultrasound image sequences. The proposed method produces the most satisfactory results in terms of visual presentation and segmentation quality based on four criteria.

Keywords

• Cardiac ultrasound image
• left ventricle recognition
• image segmentation and tracking
• faster region-based convolutional neural network (Faster R-CNN)