CT texture analysis for the differentiation of papillary renal cell carcinoma subtypes

doi:10.1007/s00261-020-02588-2

. 2020 Nov;45(11):3860-3868.

doi: 10.1007/s00261-020-02588-2.

CT texture analysis for the differentiation of papillary renal cell carcinoma subtypes

Chongfeng Duan¹, Nan Li², Lei Niu¹, Gang Wang¹, Jiping Zhao¹, Fang Liu¹, Xuejun Liu¹, Yande Ren¹, Xiaoming Zhou³

Affiliations

¹ Department of Radiology, The Affiliated Hospital of Qingdao University, No. 1677, Wu Tai Shan Road, Huangdao District, Qingdao, Shandong, China.
² Department of Information Management, The Affiliated Hospital of Qingdao University, Qingdao, China.
³ Department of Radiology, The Affiliated Hospital of Qingdao University, No. 1677, Wu Tai Shan Road, Huangdao District, Qingdao, Shandong, China. zhouxm@qduhospital.cn.

PMID: 32444891
DOI: 10.1007/s00261-020-02588-2

CT texture analysis for the differentiation of papillary renal cell carcinoma subtypes

Chongfeng Duan et al. Abdom Radiol (NY). 2020 Nov.

. 2020 Nov;45(11):3860-3868.

doi: 10.1007/s00261-020-02588-2.

Authors

Chongfeng Duan¹, Nan Li², Lei Niu¹, Gang Wang¹, Jiping Zhao¹, Fang Liu¹, Xuejun Liu¹, Yande Ren¹, Xiaoming Zhou³

Affiliations

¹ Department of Radiology, The Affiliated Hospital of Qingdao University, No. 1677, Wu Tai Shan Road, Huangdao District, Qingdao, Shandong, China.
² Department of Information Management, The Affiliated Hospital of Qingdao University, Qingdao, China.
³ Department of Radiology, The Affiliated Hospital of Qingdao University, No. 1677, Wu Tai Shan Road, Huangdao District, Qingdao, Shandong, China. zhouxm@qduhospital.cn.

PMID: 32444891
DOI: 10.1007/s00261-020-02588-2

Abstract

Purpose: The objective of this study was to investigate whether computed tomography texture analysis can be used to differentiate papillary renal cell carcinoma (PRCC) subtypes.

Method: Sixty-two PRCC tumors were retrospectively evaluated, with 30 type 1 tumors and 32 type 2 tumors. Texture parameters quantified from three-phase contrast-enhanced CT images were compared with least absolute shrinkage and selection operator (LASSO) regression. Receiver operating characteristic (ROC) analysis was performed, and the area under the ROC curve (AUC) was calculated for each parameter. The selected texture parameters of each phase were used to generate support vector machine (SVM) classifiers. Decision curve analysis (DCA) of the classification was performed.

Results: The two texture parameters with the top two AUC values were - 333-7 Correlation (AUC = 0.772) and 45-7 Entropy (AUC = 0.753) in the corticomedullary phase, 333-4 Correlation (AUC = 0.832) and 45-7 Entropy (AUC = 0.841) in the nephrographic phase, and 135-7 Entropy (AUC = 0.858) and - 333-1 InformationMeasureCorr2 (AUC = 0.849) in the excretory phase. Entropy and Correlation have a high correlation with the two types of PRCC and are increased in type 2 PRCC. A model incorporating the texture parameters with the top two AUC values in each phase produced an AUC of 0.922 with an accuracy of 84% (sensitivity = 89% and specificity = 80%). The nephrographic-phase model and the model combining the texture parameters of the three phases can differentiate the two types with the largest net benefit.

Conclusions: Computed tomography texture analysis can be used to distinguish type 2 PRCC from type 1 with high accuracy, which may be clinically important.

Keywords: Cone beam computerized tomography; Differential diagnosis; Image interpretation computer-assisted; Papillary renal cell carcinoma.

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References

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[1] Moch H, Cubilla AL, Humphrey PA, Reuter VE, Ulbright TM (2016) The 2016 WHO classification of tumours of the urinary system and male genital organs-part a: renal, penile, and testicular tumours. Eur Urol 70:93–105 - DOI

[2] Moch H, Cubilla AL, Humphrey PA, Reuter VE, Ulbright TM (2016) The 2016 WHO classification of tumours of the urinary system and male genital organs-part a: renal, penile, and testicular tumours. Eur Urol 70:93–105 - DOI

[3] K. Sasaguri, N. Takahashi, CT and MR imaging for solid renal mass characterization, Eur. J. Radiol. 99 (2018) 40–54 - DOI

[4] K. Sasaguri, N. Takahashi, CT and MR imaging for solid renal mass characterization, Eur. J. Radiol. 99 (2018) 40–54 - DOI

[5] Doshi AM, Ream JM, Kierans AS, et al. Use of MRI in differentiation of papillary renal cell carcinoma subtypes: qualitative and quantitative analysis. AJR 2016; 206:566–572 - DOI

[6] Doshi AM, Ream JM, Kierans AS, et al. Use of MRI in differentiation of papillary renal cell carcinoma subtypes: qualitative and quantitative analysis. AJR 2016; 206:566–572 - DOI

[7] Egbert ND, Caoili EM, Cohan RH, et al. Differentiation of papillary renal cell carcinoma subtypes on CT and MRI. AJR 2013; 201:347–355 - DOI

[8] Egbert ND, Caoili EM, Cohan RH, et al. Differentiation of papillary renal cell carcinoma subtypes on CT and MRI. AJR 2013; 201:347–355 - DOI

[9] Rosenkrantz AB, Sekhar A, Genega EM, et al. Prognostic implications of the magnetic resonance imaging appearance in papillary renal cell carcinoma. Eur Radiol 2013; 23:579–587 - DOI

[10] Rosenkrantz AB, Sekhar A, Genega EM, et al. Prognostic implications of the magnetic resonance imaging appearance in papillary renal cell carcinoma. Eur Radiol 2013; 23:579–587 - DOI

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CT texture analysis for the differentiation of papillary renal cell carcinoma subtypes

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CT texture analysis for the differentiation of papillary renal cell carcinoma subtypes

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