Frontiers in Pediatrics (Apr 2023)

White matter injury detection based on preterm infant cranial ultrasound images

  • Juncheng Zhu,
  • Shifa Yao,
  • Shifa Yao,
  • Zhao Yao,
  • Jinhua Yu,
  • Zhaoxia Qian,
  • Zhaoxia Qian,
  • Ping Chen,
  • Ping Chen

DOI
https://doi.org/10.3389/fped.2023.1144952
Journal volume & issue
Vol. 11

Abstract

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IntroductionWhite matter injury (WMI) is now the major disease that seriously affects the quality of life of preterm infants and causes cerebral palsy of children, which also causes periventricular leuko-malacia (PVL) in severe cases. The study aimed to develop a method based on cranial ultrasound images to evaluate the risk of WMI.MethodsThis study proposed an ultrasound radiomics diagnostic system to predict the WMI risk. A multi-task deep learning model was used to segment white matter and predict the WMI risk simultaneously. In total, 158 preterm infants with 807 cranial ultrasound images were enrolled. WMI occurred in 32preterm infants (20.3%, 32/158).ResultsUltrasound radiomics diagnostic system implemented a great result with AUC of 0.845 in the testing set. Meanwhile, multi-task deep learning model preformed a promising result both in segmentation of white matter with a Dice coefficient of 0.78 and prediction of WMI risk with AUC of 0.863 in the testing cohort.DiscussionIn this study, we presented a data-driven diagnostic system for white matter injury in preterm infants. The system combined multi-task deep learning and traditional radiomics features to achieve automatic detection of white matter regions on the one hand, and design a fusion strategy of deep learning features and manual radiomics features on the other hand to obtain stable and efficient diagnostic performance.

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