Details

Autor(en) / Beteiligte

• Liu, Zhong
• Li, Wei
• Zhu, Ziqi
• Wen, Huiying
• Li, Ming-de
• Hou, Chao
• Shen, Hui
• Huang, Bin
• Luo, Yudi
• Wang, Wei
• Chen, Xin

Titel

A deep learning model with data integration of ultrasound contrast-enhanced micro-flow cines, B-mode images, and clinical parameters for diagnosing significant liver fibrosis in patients with chronic hepatitis B

Ist Teil von

• European radiology, 2023-08, Vol.33 (8), p.5871-5881

Ort / Verlag

Berlin/Heidelberg: Springer Berlin Heidelberg

Erscheinungsjahr

2023

Quelle

SpringerLink

Beschreibungen/Notizen

• Objective To develop and investigate a deep learning model with data integration of ultrasound contrast-enhanced micro-flow (CEMF) cines, B-mode images, and patients’ clinical parameters to improve the diagnosis of significant liver fibrosis (≥ F2) in patients with chronic hepatitis B (CHB). Methods Of 682 CHB patients who underwent ultrasound and histopathological examinations between October 2016 and May 2020, 218 subjects were included in this retrospective study. We devised a data integration-based deep learning (DIDL) model for assessing ≥ F2 in CHB patients. The model contained three convolutional neural network branches to automatically extract features from ultrasound CEMF cines, B-mode images, and clinical data. The extracted features were fused at the backend of the model for decision-making. The diagnostic performance was evaluated across fivefold cross-validation and compared against the other methods in terms of the area under the receiver operating characteristic curve (AUC), with histopathological results as the reference standard. Results The mean AUC achieved by the DIDL model was 0.901 [95% CI, 0.857–0.939], which was significantly higher than those of the comparative methods, including the models trained by using only CEMF cines (0.850 [0.794–0.893]), B-mode images (0.813 [0.754–0.862]), or clinical data (0.757 [0.694–0.812]), as well as the conventional TIC method (0.752 [0.689–0.808]), APRI (0.792 [0.734–0.845]), FIB-4 (0.776 [0.714–0.829]), and visual assessments of two radiologists (0.812 [0.754–0.862], and 0.800 [0.739–0.849]), all p s < 0.01, DeLong test. Conclusion The DIDL model with data integration of ultrasound CEMF cines, B-mode images, and clinical parameters showed promising performance in diagnosing significant liver fibrosis for CHB patients. Key Points • The combined use of ultrasound contrast-enhanced micro-flow cines, B-mode images, and clinical data in a deep learning model has potential to improve the diagnosis of significant liver fibrosis . • The deep learning model with the fusion of features extracted from multimodality data outperformed the conventional methods including mono-modality data-based models, the time-intensity curve-based recognizer, fibrosis biomarkers, and visual assessments by experienced radiologists . • The interpretation of the feature attention maps in the deep learning model may help radiologists get better understanding of liver fibrosis-related features and hence potentially enhancing their diagnostic capacities .