Deep learning based on Kupffer phase of Sonazoid contrast-enhanced ultrasound to predict microvascular invasion in hepatocellular carcinoma

QIN Qiong; WEN Rong; BAI Xiumei; GAO Ruizhi; YANG Yuanping; GAN Xiangyu; LIAO Wei; QUE Qiao; CHEN Yuji; HE Yun; YANG Hong

doi:10.19732/j.cnki.2096-6210.2024.04.014

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Deep learning based on Kupffer phase of Sonazoid contrast-enhanced ultrasound to predict microvascular invasion in hepatocellular carcinoma

更新时间：2025-12-15

- Deep learning based on Kupffer phase of Sonazoid contrast-enhanced ultrasound to predict microvascular invasion in hepatocellular carcinoma
- Vol. 33, Issue 4, Pages: 432-441(2024)
- 作者机构：
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- DOI：10.19732/j.cnki.2096-6210.2024.04.014
  CLC：
- Published Online：12 September 2024，
  
  Published：12 September 2024
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秦琼,文荣,白秀梅,等. 基于示卓安超声造影Kupffer期的深度学习预测肝细胞癌微血管侵犯的研究[J]. 肿瘤影像学, 2024, 33(4): 432-441 https://doi.

org/10.19732/j.cnki.2096-6210.2024.04.014
秦琼,文荣,白秀梅,等. 基于示卓安超声造影Kupffer期的深度学习预测肝细胞癌微血管侵犯的研究[J]. 肿瘤影像学, 2024, 33(4): 432-441 https://doi. DOI： 10.19732/j.cnki.2096-6210.2024.04.014.

org/10.19732/j.cnki.2096-6210.2024.04.014 DOI：

摘要

目的：

评估基于注射用全氟丁烷微球［商品名示卓安（Sonazoid）］超声造影Kupffer期的深度学习模型预测肝细胞癌（hepatocellular carcinoma，HCC）微血管侵犯（microvascular invasion，MVI）的效能，并将其与影像组学模型及临床模型进行比较。

方法：

回顾并纳入2020年7月—2022年9月于广西医科大学第一附属医院接受Sonazoid超声造影检查的146例原发性HCC患者，以7∶3随机划分为训练集102例和验证集44例。基于肿瘤感兴趣区，使用ResNet101模型通过迁移学习提取深度学习特征，使用PyRadiomics提取影像组学特征。采用Mann-Whitney

检验、最小绝对收缩和选择算子（least absolute shrinkage and selection operator，LASSO）算法进行特征降维。LASSO回归用于构建深度学习模型和影像组学模型，同时还基于临床特征构建一个临床模型。采用受试者工作特征曲线的曲线下面积（area under the curve，AUC）、灵敏度、特异度和准确度评估模型的诊断效能。DeLong检验用于比较模型间的诊断效能。

结果：

在训练集中，深度学习模型、影像组学模型、临床模型的AUC（95% CI）分别为0.931（0.880~0.981）、0.823（0.744~0.903）、0.719（0.614~0.824）。在验证集中，深度学习模型、影像组学模型、临床模型的AUC（95% CI）分别为0.895（0.757~1.000）、0.711（0.514~0.909）、0.606（0.390~0.822）。DeLong检验表明在训练集和验证集中，深度学习模型的诊断效能均优于影像组学模型及临床模型（

＜0.05）。单因素及多因素logistic回归分析示甲胎蛋白和巴塞罗那临床肝癌分期可作为HCC患者MVI的独立预测因子（

＜0.01）。

结论：

基于Sonazoid超声造影Kupffer期的深度学习模型在预测HCC患者MVI方面表现出优异的性能，有望成为预测MVI的无创影像学生物标志物。

Abstract

Objective:

To eval

uate the performance of a deep learning model based on the Kupffer phase of perflubutane microspheres for injection (product name Sonazoid) contrast-enhanced ultrasound in predicting microvascular invasion (MVI) of hepatocellular carcinoma (HCC)

comparing it with radiomics model and clinical model.

Methods:

This study retrospective included 146 patients with primary HCC who underwent Sonazoid contrast-enhanced ultrasound examination in The First Affiliated Hospital of Guangxi Medical University from July 2020 to September 2022

randomly divided into a training set of 102 and a validation set of 44 in a 7∶3 ratios. Based on the region of interest in tumors

ResNet101 model was used to extract deep learning features through transfer learning

and PyRadiomics was utilized to extract radiomics features. Mann-Whitney

test and least absolute shrinkage and selection operator (LASSO) algorithm were employed to reduce features dimension. LASSO regression was used to construct both the deep learning model and radiomics model

a clinical model was also built based on clinical features. The diagnostic performance of models was evaluated using the area under the receiver operating characteristic curve (AUC)

sensitivity

specificity

and accuracy. DeLong testing algorithm was used to compare the diagnosticperformance between models.

Results:

In the training set

the AUC (95% CI) for the deep learning model

radiomics model

clinical model was 0.931 (0.880-0.981)

0.823 (0.744-0.903) and 0.719 (0.614-0.824)

respectively. In the validation set

the AUC (95% CI) for the deep learning model

radiomics model

clinical model was 0.895 (0.757-1.000)

0.711 (0.514-0.909) and 0.606 (0.390-0.822)

respectively. DeLong testing indicated that in both the training and validation sets

the diagnostic performance of the deep learning model was superior to that of the radiomics model and clinical model (

＜0.05). Both univariate and multivariate logistic regression analyses showed that A

FP (

＜0.05) and Barcelona Clinic Liver Cancer staging (

＜0.001) could be used as independent predictors of MVI in HCC patients.

Conclusion:

The deep learning model based on the Kupffer phase of Sonazoid contrast-enhanced ultrasound demonstrates excellent performance in predicting MVI in HCC patients. It has the potential to become a non-invasive imaging biomarker for predicting MVI.

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