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A multicenter study on two-stage transfer learning model for duct-dependent CHDs screening in fetal echocardiography.

Jiajie TangYongen LiangYuxuan JiangJinrong LiuRui ZhangDanping HuangChengcheng PangChen HuangDongni LuoXue ZhouRuizhuo LiKanghui ZhangBingbing XieLianting HuFanfan ZhuHui-min XiaLong LuHongying Wang
Published in: NPJ digital medicine (2023)
Duct-dependent congenital heart diseases (CHDs) are a serious form of CHD with a low detection rate, especially in underdeveloped countries and areas. Although existing studies have developed models for fetal heart structure identification, there is a lack of comprehensive evaluation of the long axis of the aorta. In this study, a total of 6698 images and 48 videos are collected to develop and test a two-stage deep transfer learning model named DDCHD-DenseNet for screening critical duct-dependent CHDs. The model achieves a sensitivity of 0.973, 0.843, 0.769, and 0.759, and a specificity of 0.985, 0.967, 0.956, and 0.759, respectively, on the four multicenter test sets. It is expected to be employed as a potential automatic screening tool for hierarchical care and computer-aided diagnosis. Our two-stage strategy effectively improves the robustness of the model and can be extended to screen for other fetal heart development defects.
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