Quantitative Computed Tomography Image Analysis to Predict Pancreatic Neuroendocrine Tumor Grade

Alessandra Pulvirenti; Rikiya Yamashita; Jayasree Chakraborty; Natally Horvat; Kenneth Seier; Caitlin A. McIntyre; Sharon A. Lawrence; Abhishek Midya; Maura A. Koszalka; Mithat Gonen; David S. Klimstra; Diane L. Reidy; Peter J. Allen; Richard K.G. Do; Amber L. Simpson

doi:10.1200/CCI.20.00121

Quantitative Computed Tomography Image Analysis to Predict Pancreatic Neuroendocrine Tumor Grade

Alessandra Pulvirenti, Rikiya Yamashita, Jayasree Chakraborty, Natally Horvat, Kenneth Seier, Caitlin A. McIntyre, Sharon A. Lawrence, Abhishek Midya, Maura A. Koszalka, Mithat Gonen, David S. Klimstra, Diane L. Reidy, Peter J. Allen, Richard K.G. Do, Amber L. Simpson

Research output: Contribution to journal › Article › peer-review

9 Scopus citations

Abstract

PURPOSE The therapeutic management of pancreatic neuroendocrine tumors (PanNETs) is based on pathological tumor grade assessment. A noninvasive imaging method to grade tumors would facilitate treatment selection. This study evaluated the ability of quantitative image analysis derived from computed tomography (CT) images to predict PanNET grade. METHODS Institutional database was queried for resected PanNET (2000-2017) with a preoperative arterial phase CT scan. Radiomic features were extracted from the primary tumor on the CT scan using quantitative image analysis, and qualitative radiographic descriptors were assessed by two radiologists. Significant features were identified by univariable analysis and used to build multivariable models to predict PanNET grade. RESULTS Overall, 150 patients were included. The performance of models based on qualitative radiographic descriptors varied between the two radiologists (reader 1: sensitivity, 33%; specificity, 66%; negative predictive value [NPV], 63%; and positive predictive value [PPV], 37%; reader 2: sensitivity, 45%; specificity, 70%; NPV, 72%; and PPV, 47%). The model based on radiomics had a better performance predicting the tumor grade with a sensitivity of 54%, a specificity of 80%, an NPV of 81%, and a PPV of 54%. The inclusion of radiomics in the radiographic descriptor models improved both the radiologists’ performance. CONCLUSION CT quantitative image analysis of PanNETs helps predict tumor grade from routinely acquired scans and should be investigated in future prospective studies.

Original language	English (US)
Pages (from-to)	679-694
Number of pages	16
Journal	JCO clinical cancer informatics
Volume	5
DOIs	https://doi.org/10.1200/CCI.20.00121
State	Published - 2021
Externally published	Yes

ASJC Scopus subject areas

General Medicine

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Pulvirenti, A., Yamashita, R., Chakraborty, J., Horvat, N., Seier, K., McIntyre, C. A., Lawrence, S. A., Midya, A., Koszalka, M. A., Gonen, M., Klimstra, D. S., Reidy, D. L., Allen, P. J., Do, R. K. G., & Simpson, A. L. (2021). Quantitative Computed Tomography Image Analysis to Predict Pancreatic Neuroendocrine Tumor Grade. JCO clinical cancer informatics, 5, 679-694. https://doi.org/10.1200/CCI.20.00121

Pulvirenti, A, Yamashita, R, Chakraborty, J, Horvat, N, Seier, K, McIntyre, CA, Lawrence, SA, Midya, A, Koszalka, MA, Gonen, M, Klimstra, DS, Reidy, DL, Allen, PJ, Do, RKG & Simpson, AL 2021, 'Quantitative Computed Tomography Image Analysis to Predict Pancreatic Neuroendocrine Tumor Grade', JCO clinical cancer informatics, vol. 5, pp. 679-694. https://doi.org/10.1200/CCI.20.00121

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title = "Quantitative Computed Tomography Image Analysis to Predict Pancreatic Neuroendocrine Tumor Grade",

abstract = "PURPOSE The therapeutic management of pancreatic neuroendocrine tumors (PanNETs) is based on pathological tumor grade assessment. A noninvasive imaging method to grade tumors would facilitate treatment selection. This study evaluated the ability of quantitative image analysis derived from computed tomography (CT) images to predict PanNET grade. METHODS Institutional database was queried for resected PanNET (2000-2017) with a preoperative arterial phase CT scan. Radiomic features were extracted from the primary tumor on the CT scan using quantitative image analysis, and qualitative radiographic descriptors were assessed by two radiologists. Significant features were identified by univariable analysis and used to build multivariable models to predict PanNET grade. RESULTS Overall, 150 patients were included. The performance of models based on qualitative radiographic descriptors varied between the two radiologists (reader 1: sensitivity, 33%; specificity, 66%; negative predictive value [NPV], 63%; and positive predictive value [PPV], 37%; reader 2: sensitivity, 45%; specificity, 70%; NPV, 72%; and PPV, 47%). The model based on radiomics had a better performance predicting the tumor grade with a sensitivity of 54%, a specificity of 80%, an NPV of 81%, and a PPV of 54%. The inclusion of radiomics in the radiographic descriptor models improved both the radiologists{\textquoteright} performance. CONCLUSION CT quantitative image analysis of PanNETs helps predict tumor grade from routinely acquired scans and should be investigated in future prospective studies.",

author = "Alessandra Pulvirenti and Rikiya Yamashita and Jayasree Chakraborty and Natally Horvat and Kenneth Seier and McIntyre, {Caitlin A.} and Lawrence, {Sharon A.} and Abhishek Midya and Koszalka, {Maura A.} and Mithat Gonen and Klimstra, {David S.} and Reidy, {Diane L.} and Allen, {Peter J.} and Do, {Richard K.G.} and Simpson, {Amber L.}",

note = "Publisher Copyright: {\textcopyright} 2021 by American Society of Clinical Oncology.",

year = "2021",

doi = "10.1200/CCI.20.00121",

language = "English (US)",

volume = "5",

pages = "679--694",

journal = "JCO clinical cancer informatics",

issn = "2473-4276",

publisher = "Lippincott Williams and Wilkins",

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T1 - Quantitative Computed Tomography Image Analysis to Predict Pancreatic Neuroendocrine Tumor Grade

AU - Pulvirenti, Alessandra

AU - Yamashita, Rikiya

AU - Chakraborty, Jayasree

AU - Horvat, Natally

AU - Seier, Kenneth

AU - McIntyre, Caitlin A.

AU - Lawrence, Sharon A.

AU - Midya, Abhishek

AU - Koszalka, Maura A.

AU - Gonen, Mithat

AU - Klimstra, David S.

AU - Reidy, Diane L.

AU - Allen, Peter J.

AU - Do, Richard K.G.

AU - Simpson, Amber L.

PY - 2021

Y1 - 2021

N2 - PURPOSE The therapeutic management of pancreatic neuroendocrine tumors (PanNETs) is based on pathological tumor grade assessment. A noninvasive imaging method to grade tumors would facilitate treatment selection. This study evaluated the ability of quantitative image analysis derived from computed tomography (CT) images to predict PanNET grade. METHODS Institutional database was queried for resected PanNET (2000-2017) with a preoperative arterial phase CT scan. Radiomic features were extracted from the primary tumor on the CT scan using quantitative image analysis, and qualitative radiographic descriptors were assessed by two radiologists. Significant features were identified by univariable analysis and used to build multivariable models to predict PanNET grade. RESULTS Overall, 150 patients were included. The performance of models based on qualitative radiographic descriptors varied between the two radiologists (reader 1: sensitivity, 33%; specificity, 66%; negative predictive value [NPV], 63%; and positive predictive value [PPV], 37%; reader 2: sensitivity, 45%; specificity, 70%; NPV, 72%; and PPV, 47%). The model based on radiomics had a better performance predicting the tumor grade with a sensitivity of 54%, a specificity of 80%, an NPV of 81%, and a PPV of 54%. The inclusion of radiomics in the radiographic descriptor models improved both the radiologists’ performance. CONCLUSION CT quantitative image analysis of PanNETs helps predict tumor grade from routinely acquired scans and should be investigated in future prospective studies.

AB - PURPOSE The therapeutic management of pancreatic neuroendocrine tumors (PanNETs) is based on pathological tumor grade assessment. A noninvasive imaging method to grade tumors would facilitate treatment selection. This study evaluated the ability of quantitative image analysis derived from computed tomography (CT) images to predict PanNET grade. METHODS Institutional database was queried for resected PanNET (2000-2017) with a preoperative arterial phase CT scan. Radiomic features were extracted from the primary tumor on the CT scan using quantitative image analysis, and qualitative radiographic descriptors were assessed by two radiologists. Significant features were identified by univariable analysis and used to build multivariable models to predict PanNET grade. RESULTS Overall, 150 patients were included. The performance of models based on qualitative radiographic descriptors varied between the two radiologists (reader 1: sensitivity, 33%; specificity, 66%; negative predictive value [NPV], 63%; and positive predictive value [PPV], 37%; reader 2: sensitivity, 45%; specificity, 70%; NPV, 72%; and PPV, 47%). The model based on radiomics had a better performance predicting the tumor grade with a sensitivity of 54%, a specificity of 80%, an NPV of 81%, and a PPV of 54%. The inclusion of radiomics in the radiographic descriptor models improved both the radiologists’ performance. CONCLUSION CT quantitative image analysis of PanNETs helps predict tumor grade from routinely acquired scans and should be investigated in future prospective studies.

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JO - JCO clinical cancer informatics

JF - JCO clinical cancer informatics

ER -

Quantitative Computed Tomography Image Analysis to Predict Pancreatic Neuroendocrine Tumor Grade

Abstract

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