In Computers in biology and medicine
BACKGROUND : Numerous traditional filtering approaches and deep learning-based methods have been proposed to improve the quality of ultrasound (US) image data. However, their results tend to suffer from over-smoothing and loss of texture and fine details. Moreover, they perform poorly on images with different degradation levels and mainly focus on speckle reduction, even though texture and fine detail enhancement are of crucial importance in clinical diagnosis.
METHODS : We propose an end-to-end framework termed US-Net for simultaneous speckle suppression and texture enhancement in US images. The architecture of US-Net is inspired by U-Net, whereby a feature refinement attention block (FRAB) is introduced to enable an effective learning of multi-level and multi-contextual representative features. Specifically, FRAB aims to emphasize high-frequency image information, which helps boost the restoration and preservation of fine-grained and textural details. Furthermore, our proposed US-Net is trained essentially with real US image data, whereby real US images embedded with simulated multi-level speckle noise are used as an auxiliary training set.
RESULTS : Extensive quantitative and qualitative experiments indicate that although trained with only one US image data type, our proposed US-Net is capable of restoring images acquired from different body parts and scanning settings with different degradation levels, while exhibiting favorable performance against state-of-the-art image enhancement approaches. Furthermore, utilizing our proposed US-Net as a pre-processing stage for COVID-19 diagnosis results in a gain of 3.6% in diagnostic accuracy.
CONCLUSIONS : The proposed framework can help improve the accuracy of ultrasound diagnosis.
Monkam Patrice, Lu Wenkai, Jin Songbai, Shan Wenjun, Wu Jing, Zhou Xiang, Tang Bo, Zhao Hua, Zhang Hongmin, Ding Xin, Chen Huan, Su Longxiang
2022-Nov-30
Deep learning, Improved diagnostic accuracy, Speckle suppression, Texture enhancement, Ultrasound image
