Scientific Reports (May 2024)

Deep-learning segmentation to select liver parenchyma for categorizing hepatic steatosis on multinational chest CT

  • Zhongyi Zhang,
  • Guixia Li,
  • Ziqiang Wang,
  • Feng Xia,
  • Ning Zhao,
  • Huibin Nie,
  • Zezhong Ye,
  • Joshua S. Lin,
  • Yiyi Hui,
  • Xiangchun Liu

DOI
https://doi.org/10.1038/s41598-024-62887-2
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 11

Abstract

Read online

Abstract Unenhanced CT scans exhibit high specificity in detecting moderate-to-severe hepatic steatosis. Even though many CTs are scanned from health screening and various diagnostic contexts, their potential for hepatic steatosis detection has largely remained unexplored. The accuracy of previous methodologies has been limited by the inclusion of non-parenchymal liver regions. To overcome this limitation, we present a novel deep-learning (DL) based method tailored for the automatic selection of parenchymal portions in CT images. This innovative method automatically delineates circular regions for effectively detecting hepatic steatosis. We use 1,014 multinational CT images to develop a DL model for segmenting liver and selecting the parenchymal regions. The results demonstrate outstanding performance in both tasks. By excluding non-parenchymal portions, our DL-based method surpasses previous limitations, achieving radiologist-level accuracy in liver attenuation measurements and hepatic steatosis detection. To ensure the reproducibility, we have openly shared 1014 annotated CT images and the DL system codes. Our novel research contributes to the refinement the automated detection methodologies of hepatic steatosis on CT images, enhancing the accuracy and efficiency of healthcare screening processes.

Keywords