利用组织间液压力和流速的计算模型对肝细胞癌微血管侵犯进行特征分析
Characterization of Microvascular Invasion in Hepatocellular Carcinoma Using Computational Modeling of Interstitial Fluid Pressure and Velocity.
作者信息
Zheng Liyun, Yang Chun, Sheng Ruofan, Rao Shengxiang, Wu Lifang, Zeng Mengsu, Dai Yongming
机构信息
Shanghai Institute of Medical Imaging, Shanghai, China.
Department of Radiology, Zhongshan Hospital, Fudan University, Shanghai, China.
出版信息
J Magn Reson Imaging. 2023 Nov;58(5):1366-1374. doi: 10.1002/jmri.28644. Epub 2023 Feb 10.
BACKGROUND
Most solid tumors show increased interstitial fluid pressure (IFP), and this increased IFP is an obstacle to treatment. A noninvasive model for measuring IFP in hepatocellular carcinoma (HCC) is an unresolved issue.
PURPOSE
To develop a noninvasive model to measure IFP and interstitial fluid velocity (IFV) in HCC and to characterize the microvascular invasion (MVI) status by using this model.
STUDY TYPE
Retrospective.
POPULATION
A total of 97 HCC patients (mean age 57.6 ± 10.9 years, 77.3% males), 53 of them with MVI and 44 of them without MVI.
FIELD STRENGTH/SEQUENCE: A 3-T, three-dimensional spoiled gradient-recalled echo.
ASSESSMENT
MVI was defined as microscopic vascular invasion of small vessels within the peritumoral liver tissue. The volumes of interest (VOIs) were manually delineated and enclosed the tumor lesion and healthy liver parenchyma, respectively. The extended Tofts model (ETM) was used to estimate permeability parameters from all the VOIs. Subsequently, the continuity partial differential equation (PDE) was implemented and IFP and IFV were acquired.
STATISTICAL TESTS
Wilcoxon signed-ranks tests, histogram analysis, Mann-Whitney U test, Fisher's exact test, least absolute shrinkage and selection operator (LASSO) logistic regression, receiver operating characteristic (ROC) curve analysis with the area under the curve (AUC), Youden index, DeLong test, and Benjamini-Hochberg correction. A P value <0.05 was considered statistically significant.
RESULTS
The HCC lesions exhibited elevated IFP and reduced IFV. There were no significant differences in any measured demographic and clinical features between the MVI-positive and MVI-negative groups, except for tumor size. Nine IFP histogram analysis-derived parameters and seven IFV histogram analysis-derived parameters could be used to characterize the MVI status. LASSO regression selected five features: IFP maximum, IFP 10th percentile, IFP 90th percentile, IFV SD, and IFV 10th percentile. The combination of these features showed the highest AUC (0.781) and specificity (77.3%).
DATA CONCLUSION
A noninvasive IFP and IFV measurement model for HCC was developed. Specific IFP- and IFV-derived parameters exhibited significant association with the MVI status.
EVIDENCE LEVEL
TECHNICAL EFFICACY
Stage 2.
背景
大多数实体瘤的间质液压力(IFP)升高,而这种升高的IFP是治疗的障碍。用于测量肝细胞癌(HCC)中IFP的非侵入性模型仍是一个未解决的问题。
目的
建立一种非侵入性模型来测量HCC中的IFP和间质液流速(IFV),并使用该模型表征微血管侵犯(MVI)状态。
研究类型
回顾性研究。
研究对象
共97例HCC患者(平均年龄57.6±10.9岁,77.3%为男性),其中53例有MVI,44例无MVI。
场强/序列:3-T三维扰相梯度回波序列。
评估
MVI定义为肿瘤周围肝组织内小血管的微血管侵犯。分别手动勾勒感兴趣体积(VOI)并使其包含肿瘤病灶和健康肝实质。使用扩展Tofts模型(ETM)从所有VOI估计渗透参数。随后,实施连续性偏微分方程(PDE)并获取IFP和IFV。
统计检验
Wilcoxon符号秩检验、直方图分析、Mann-Whitney U检验、Fisher精确检验、最小绝对收缩和选择算子(LASSO)逻辑回归、曲线下面积(AUC)的受试者工作特征(ROC)曲线分析、约登指数、DeLong检验和Benjamini-Hochberg校正。P值<0.05被认为具有统计学意义。
结果
HCC病灶表现为IFP升高和IFV降低。除肿瘤大小外,MVI阳性组和MVI阴性组在任何测量的人口统计学和临床特征方面均无显著差异。九个源自IFP直方图分析的参数和七个源自IFV直方图分析的参数可用于表征MVI状态。LASSO回归选择了五个特征:IFP最大值、IFP第10百分位数、IFP第9百分位数、IFV标准差和IFV第10百分位数。这些特征的组合显示出最高的AUC(0.781)和特异性(77.3%)。
数据结论
建立了一种用于HCC的非侵入性IFP和IFV测量模型。源自IFP和IFV的特定参数与MVI状态显著相关。
证据水平
3级。
技术效能
2级。
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