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Learning-based Attenuation Quantification in Abdominal Ultrasound

Myeong-Gee Kim1,  Seok-Hwan Oh1,  Young-Min Kim1,  Hyuksool Kwon2,  Hyeon-Min Bae1  
Springer, Medical Image Computing and Computer Assisted Intervention (MICCAI)
  • 1. Department of Electrical Engineering, KAIST, Daejeon, South Korea
  • 2. Department of Emergency Medicine, SNUBH, Seong-nam, South Korea


The attenuation coefficient (AC) of tissue in medical ultrasound has great potential as a quantitative biomarker due to its high sensitivity to pathological properties. In particular, AC is emerging as a new quantitative biomarker for diagnosing and quantifying hepatic steatosis. In this paper, a learning-based technique to quantify AC from pulse-echo data obtained through a single convex probe is presented. In the proposed method, ROI adaptive transmit beam focusing (TxBF) and envelope detection schemes are employed to increase the estimation accuracy and noise resilience, respectively. In addition, the proposed network is designed to extract accurate AC of the target region considering attenuation/sound speed/scattering of the propagating waves in the vicinities of the target region. The accuracy of the proposed method is verified through simulation and phantom tests. In addition, clinical pilot studies show that the estimated liver AC values using the proposed method are correlated strongly with the fat fraction obtained from magnetic resonance imaging. Such results indicate the clinical validity of the proposed learning-based AC estimation method for diagnosing hepatic steatosis.

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