Impact of image pre-processing methods on computed tomography radiomics features in chronic obstructive pulmonary disease

慢性阻塞性肺病 医学 图像处理 逻辑回归 阈值 重采样 接收机工作特性 图像分割 分割 人工智能 放射科 计算机科学 内科学 图像(数学)
作者
Ryan Chun-Hin Au,Wan C. Tan,Jean Bourbeau,James C. Hogg,Miranda Kirby
出处
期刊:Physics in Medicine and Biology [IOP Publishing]
卷期号:66 (24): 245015-245015 被引量:10
标识
DOI:10.1088/1361-6560/ac3eac
摘要

Abstract Computed tomography (CT) imaging texture-based radiomics analysis can be used to assess chronic obstructive pulmonary disease (COPD). However, different image pre-processing methods are commonly used, and how these different methods impact radiomics features and lung disease assessment, is unknown. The purpose of this study was to develop an image pre-processing pipeline to investigate how various pre-processing combinations impact radiomics features and their use for COPD assessment. Spirometry and CT images were obtained from the multi-centered Canadian Cohort of Obstructive Lung Disease study. Participants were divided based on assessment site and were further dichotomized as No COPD or COPD within their participant groups. An image pre-processing pipeline was developed, calculating 32 grey level co-occurrence matrix radiomics features. The pipeline included lung segmentation, airway segmentation or no segmentation, image resampling or no resampling, and either no pre-processing, binning, edgmentation, or thresholding pre-processing techniques. A three-way analysis of variance was used for method comparison. A nested 10-fold cross validation using logistic regression and multiple linear regression models were constructed to classify COPD and assess correlation with lung function, respectively. Logistic regression performance was evaluated using the area under the receiver operating characteristic curve (AUC). A total of 1210 participants (Sites 1–8: No COPD: n = 447, COPD: n = 413; and Site 9: No COPD: n = 155, COPD: n = 195) were evaluated. Between the two participant groups, at least 16/32 features were different between airway segmentation/no segmentation ( P ≤ 0.04), at least 29/32 features were different between no resampling/resampling ( P ≤ 0.04), and 32/32 features were different between the pre-processing techniques ( P < 0.0001). Features generated using the resampling/edgmentation and resampling/thresholding pre-processing combinations, regardless of airway segmentation, performed the best in COPD classification (AUC ≥ 0.718), and explained the most variance with lung function ( R 2 ≥ 0.353). Therefore, the image pre-processing methods completed prior to CT radiomics feature extraction significantly impacted extracted features and their ability to assess COPD.

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