小波变换可增强计算机断层扫描纹理特征：一项用于COVID-19肺部病变分级评估的多中心放射组学研究。

Wavelet transformation can enhance computed tomography texture features: a multicenter radiomics study for grade assessment of COVID-19 pulmonary lesions.

作者信息

Jiang Zekun, Yin Jin, Han Peilun, Chen Nan, Kang Qingbo, Qiu Yue, Li Yiyue, Lao Qicheng, Sun Miao, Yang Dan, Huang Shan, Qiu Jiajun, Li Kang

机构信息

West China Biomedical Big Data Center, West China Hospital, Sichuan University, Chengdu, China.

Med-X Center for Informatics, Sichuan University, Chengdu, China.

出版信息

Quant Imaging Med Surg. 2022 Oct;12(10):4758-4770. doi: 10.21037/qims-22-252.

DOI:10.21037/qims-22-252

PMID:36185061

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9511418/

Abstract

BACKGROUND

This study set out to develop a computed tomography (CT)-based wavelet transforming radiomics approach for grading pulmonary lesions caused by COVID-19 and to validate it using real-world data.

METHODS

This retrospective study analyzed 111 patients with 187 pulmonary lesions from 16 hospitals; all patients had confirmed COVID-19 and underwent non-contrast chest CT. Data were divided into a training cohort (72 patients with 127 lesions from nine hospitals) and an independent test cohort (39 patients with 60 lesions from seven hospitals) according to the hospital in which the CT was performed. In all, 73 texture features were extracted from manually delineated lesion volumes, and 23 three-dimensional (3D) wavelets with eight decomposition modes were implemented to compare and validate the value of wavelet transformation for grade assessment. Finally, the optimal machine learning pipeline, valuable radiomic features, and final radiomic models were determined. The area under the receiver operating characteristic (ROC) curve (AUC), calibration curve, and decision curve were used to determine the diagnostic performance and clinical utility of the models.

RESULTS

Of the 187 lesions, 108 (57.75%) were diagnosed as mild lesions and 79 (42.25%) as moderate/severe lesions. All selected radiomic features showed significant correlations with the grade of COVID-19 pulmonary lesions (P<0.05). Biorthogonal 1.1 (bior1.1) LLL was determined as the optimal wavelet transform mode. The wavelet transforming radiomic model had an AUC of 0.910 in the test cohort, outperforming the original radiomic model (AUC =0.880; P<0.05). Decision analysis showed the radiomic model could add a net benefit at any given threshold of probability.

CONCLUSIONS

Wavelet transformation can enhance CT texture features. Wavelet transforming radiomics based on CT images can be used to effectively assess the grade of pulmonary lesions caused by COVID-19, which may facilitate individualized management of patients with this disease.

摘要

背景

本研究旨在开发一种基于计算机断层扫描（CT）的小波变换放射组学方法，用于对新型冠状病毒肺炎（COVID-19）所致肺部病变进行分级，并使用真实世界数据对其进行验证。

方法

这项回顾性研究分析了来自16家医院的111例患者的187个肺部病变；所有患者均确诊为COVID-19并接受了非增强胸部CT检查。根据进行CT检查的医院，将数据分为训练队列（来自9家医院的72例患者，共127个病变）和独立测试队列（来自7家医院的39例患者，共60个病变）。总共从手动勾勒的病变体积中提取了73个纹理特征，并采用23种具有8种分解模式的三维（3D）小波来比较和验证小波变换在分级评估中的价值。最后，确定了最佳机器学习流程、有价值的放射组学特征和最终的放射组学模型。采用受试者操作特征（ROC）曲线下面积（AUC）、校准曲线和决策曲线来确定模型的诊断性能和临床实用性。

结果

在这187个病变中，108个（57.75%）被诊断为轻度病变，79个（42.25%）为中度/重度病变。所有选定的放射组学特征均与COVID-19肺部病变的分级显著相关（P<0.05）。双正交1.1（bior1.1）LLL被确定为最佳小波变换模式。小波变换放射组学模型在测试队列中的AUC为0.910，优于原始放射组学模型（AUC =0.880；P<0.05）。决策分析表明，放射组学模型在任何给定的概率阈值下都能增加净效益。

结论

小波变换可增强CT纹理特征。基于CT图像的小波变换放射组学可有效评估COVID-19所致肺部病变的分级，这可能有助于对该疾病患者进行个体化管理。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8571/9511418/66a8fd0ad881/qims-12-10-4758-f1.jpg

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小波变换可增强计算机断层扫描纹理特征：一项用于COVID-19肺部病变分级评估的多中心放射组学研究。

Wavelet transformation can enhance computed tomography texture features: a multicenter radiomics study for grade assessment of COVID-19 pulmonary lesions.

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