A visually apparent and quantifiable CT imaging feature identifies biophysical subtypes of pancreatic ductal adenocarcinoma

Eugene J. Koay; Yeonju Lee; Vittorio Cristini; John S. Lowengrub; Ya'an Kang; F. Anthony San Lucas; Brian P. Hobbs; Rong Ye; Dalia Elganainy; Muayad Almahariq; Ahmed M. Amer; Deyali Chatterjee; Huaming Yan; Peter C. Park; Mayrim V. Rios Perez; Dali Li; Naveen Garg; Kim A. Reiss; Shun Yu; Anil Chauhan; Mohamed Zaid; Newsha Nikzad; Robert A. Wolff; Milind Javle; Gauri R. Varadhachary; Rachna T. Shroff; Prajnan Das; Jeffrey E. Lee; Mauro Ferrari; Anirban Maitra; Cullen M. Taniguchi; Michael P. Kim; Christopher H. Crane; Matthew H. Katz; Huamin Wang; Priya Bhosale; Eric P. Tamm; Jason B. Fleming

doi:10.1158/1078-0432.CCR-17-3668

A visually apparent and quantifiable CT imaging feature identifies biophysical subtypes of pancreatic ductal adenocarcinoma

Eugene J. Koay, Yeonju Lee, Vittorio Cristini, John S. Lowengrub, Ya'an Kang, F. Anthony San Lucas, Brian P. Hobbs, Rong Ye, Dalia Elganainy, Muayad Almahariq, Ahmed M. Amer, Deyali Chatterjee, Huaming Yan, Peter C. Park, Mayrim V. Rios Perez, Dali Li, Naveen Garg, Kim A. Reiss, Shun Yu, Anil ChauhanMohamed Zaid, Newsha Nikzad, Robert A. Wolff, Milind Javle, Gauri R. Varadhachary, Rachna T. Shroff, Prajnan Das, Jeffrey E. Lee, Mauro Ferrari, Anirban Maitra, Cullen M. Taniguchi, Michael P. Kim, Christopher H. Crane, Matthew H. Katz, Huamin Wang, Priya Bhosale, Eric P. Tamm, Jason B. Fleming

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Abstract

Purpose: Pancreatic ductal adenocarcinoma (PDAC) is a heterogeneous disease with variable presentations and natural histories of disease. We hypothesized that different morphologic characteristics of PDAC tumors on diagnostic computed tomography (CT) scans would reflect their underlying biology. Experimental Design: We developed a quantitative method to categorize the PDAC morphology on pretherapy CT scans from multiple datasets of patients with resectable and metastatic disease and correlated these patterns with clinical/pathologic measurements. We modeled macroscopic lesion growth computationally to test the effects of stroma on morphologic patterns, hypothesizing that the balance of proliferation and local migration rates of the cancer cells would determine tumor morphology. Results: In localized and metastatic PDAC, quantifying the change in enhancement on CT scans at the interface between tumor and parenchyma (delta) demonstrated that patients with conspicuous (high-delta) tumors had significantly less stroma, higher likelihood of multiple common pathway mutations, more mesenchymal features, higher likelihood of early distant metastasis, and shorter survival times compared with those with inconspicuous (low-delta) tumors. Pathologic measurements of stromal and mesenchymal features of the tumors supported the mathematical model's underlying theory for PDAC growth. Conclusions: At baseline diagnosis, a visually striking and quantifiable CT imaging feature reflects the molecular and pathological heterogeneity of PDAC, and may be used to stratify patients into distinct subtypes. Moreover, growth patterns of PDAC may be described using physical principles, enabling new insights into diagnosis and treatment of this deadly disease.

Original language	English (US)
Pages (from-to)	5883-5894
Number of pages	12
Journal	Clinical Cancer Research
Volume	24
Issue number	23
DOIs	https://doi.org/10.1158/1078-0432.CCR-17-3668
State	Published - Dec 1 2018

ASJC Scopus subject areas

Oncology
Cancer Research

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10.1158/1078-0432.CCR-17-3668

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Koay, E. J., Lee, Y., Cristini, V., Lowengrub, J. S., Kang, Y., Anthony San Lucas, F., Hobbs, B. P., Ye, R., Elganainy, D., Almahariq, M., Amer, A. M., Chatterjee, D., Yan, H., Park, P. C., Rios Perez, M. V., Li, D., Garg, N., Reiss, K. A., Yu, S., ... Fleming, J. B. (2018). A visually apparent and quantifiable CT imaging feature identifies biophysical subtypes of pancreatic ductal adenocarcinoma. Clinical Cancer Research, 24(23), 5883-5894. https://doi.org/10.1158/1078-0432.CCR-17-3668

Koay, EJ, Lee, Y, Cristini, V, Lowengrub, JS, Kang, Y , Anthony San Lucas, F, Hobbs, BP, Ye, R, Elganainy, D, Almahariq, M, Amer, AM, Chatterjee, D, Yan, H, Park, PC, Rios Perez, MV, Li, D, Garg, N, Reiss, KA, Yu, S, Chauhan, A, Zaid, M, Nikzad, N, Wolff, RA , Javle, M, Varadhachary, GR, Shroff, RT, Das, P , Lee, JE, Ferrari, M, Maitra, A, Taniguchi, CM, Kim, MP, Crane, CH, Katz, MH , Wang, H , Bhosale, P , Tamm, EP & Fleming, JB 2018, 'A visually apparent and quantifiable CT imaging feature identifies biophysical subtypes of pancreatic ductal adenocarcinoma', Clinical Cancer Research, vol. 24, no. 23, pp. 5883-5894. https://doi.org/10.1158/1078-0432.CCR-17-3668

@article{9604b63bba95481c89c68ab4f389c958,

title = "A visually apparent and quantifiable CT imaging feature identifies biophysical subtypes of pancreatic ductal adenocarcinoma",

abstract = "Purpose: Pancreatic ductal adenocarcinoma (PDAC) is a heterogeneous disease with variable presentations and natural histories of disease. We hypothesized that different morphologic characteristics of PDAC tumors on diagnostic computed tomography (CT) scans would reflect their underlying biology. Experimental Design: We developed a quantitative method to categorize the PDAC morphology on pretherapy CT scans from multiple datasets of patients with resectable and metastatic disease and correlated these patterns with clinical/pathologic measurements. We modeled macroscopic lesion growth computationally to test the effects of stroma on morphologic patterns, hypothesizing that the balance of proliferation and local migration rates of the cancer cells would determine tumor morphology. Results: In localized and metastatic PDAC, quantifying the change in enhancement on CT scans at the interface between tumor and parenchyma (delta) demonstrated that patients with conspicuous (high-delta) tumors had significantly less stroma, higher likelihood of multiple common pathway mutations, more mesenchymal features, higher likelihood of early distant metastasis, and shorter survival times compared with those with inconspicuous (low-delta) tumors. Pathologic measurements of stromal and mesenchymal features of the tumors supported the mathematical model's underlying theory for PDAC growth. Conclusions: At baseline diagnosis, a visually striking and quantifiable CT imaging feature reflects the molecular and pathological heterogeneity of PDAC, and may be used to stratify patients into distinct subtypes. Moreover, growth patterns of PDAC may be described using physical principles, enabling new insights into diagnosis and treatment of this deadly disease.",

author = "Koay, {Eugene J.} and Yeonju Lee and Vittorio Cristini and Lowengrub, {John S.} and Ya'an Kang and {Anthony San Lucas}, F. and Hobbs, {Brian P.} and Rong Ye and Dalia Elganainy and Muayad Almahariq and Amer, {Ahmed M.} and Deyali Chatterjee and Huaming Yan and Park, {Peter C.} and {Rios Perez}, {Mayrim V.} and Dali Li and Naveen Garg and Reiss, {Kim A.} and Shun Yu and Anil Chauhan and Mohamed Zaid and Newsha Nikzad and Wolff, {Robert A.} and Milind Javle and Varadhachary, {Gauri R.} and Shroff, {Rachna T.} and Prajnan Das and Lee, {Jeffrey E.} and Mauro Ferrari and Anirban Maitra and Taniguchi, {Cullen M.} and Kim, {Michael P.} and Crane, {Christopher H.} and Katz, {Matthew H.} and Huamin Wang and Priya Bhosale and Tamm, {Eric P.} and Fleming, {Jason B.}",

note = "Publisher Copyright: {\textcopyright} 2018 American Association for Cancer Research.",

year = "2018",

month = dec,

day = "1",

doi = "10.1158/1078-0432.CCR-17-3668",

language = "English (US)",

volume = "24",

pages = "5883--5894",

journal = "Clinical Cancer Research",

issn = "1078-0432",

publisher = "American Association for Cancer Research Inc.",

number = "23",

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TY - JOUR

T1 - A visually apparent and quantifiable CT imaging feature identifies biophysical subtypes of pancreatic ductal adenocarcinoma

AU - Koay, Eugene J.

AU - Lee, Yeonju

AU - Cristini, Vittorio

AU - Lowengrub, John S.

AU - Kang, Ya'an

AU - Anthony San Lucas, F.

AU - Hobbs, Brian P.

AU - Ye, Rong

AU - Elganainy, Dalia

AU - Almahariq, Muayad

AU - Amer, Ahmed M.

AU - Chatterjee, Deyali

AU - Yan, Huaming

AU - Park, Peter C.

AU - Rios Perez, Mayrim V.

AU - Li, Dali

AU - Garg, Naveen

AU - Reiss, Kim A.

AU - Yu, Shun

AU - Chauhan, Anil

AU - Zaid, Mohamed

AU - Nikzad, Newsha

AU - Wolff, Robert A.

AU - Javle, Milind

AU - Varadhachary, Gauri R.

AU - Shroff, Rachna T.

AU - Das, Prajnan

AU - Lee, Jeffrey E.

AU - Ferrari, Mauro

AU - Maitra, Anirban

AU - Taniguchi, Cullen M.

AU - Kim, Michael P.

AU - Crane, Christopher H.

AU - Katz, Matthew H.

AU - Wang, Huamin

AU - Bhosale, Priya

AU - Tamm, Eric P.

AU - Fleming, Jason B.

PY - 2018/12/1

Y1 - 2018/12/1

N2 - Purpose: Pancreatic ductal adenocarcinoma (PDAC) is a heterogeneous disease with variable presentations and natural histories of disease. We hypothesized that different morphologic characteristics of PDAC tumors on diagnostic computed tomography (CT) scans would reflect their underlying biology. Experimental Design: We developed a quantitative method to categorize the PDAC morphology on pretherapy CT scans from multiple datasets of patients with resectable and metastatic disease and correlated these patterns with clinical/pathologic measurements. We modeled macroscopic lesion growth computationally to test the effects of stroma on morphologic patterns, hypothesizing that the balance of proliferation and local migration rates of the cancer cells would determine tumor morphology. Results: In localized and metastatic PDAC, quantifying the change in enhancement on CT scans at the interface between tumor and parenchyma (delta) demonstrated that patients with conspicuous (high-delta) tumors had significantly less stroma, higher likelihood of multiple common pathway mutations, more mesenchymal features, higher likelihood of early distant metastasis, and shorter survival times compared with those with inconspicuous (low-delta) tumors. Pathologic measurements of stromal and mesenchymal features of the tumors supported the mathematical model's underlying theory for PDAC growth. Conclusions: At baseline diagnosis, a visually striking and quantifiable CT imaging feature reflects the molecular and pathological heterogeneity of PDAC, and may be used to stratify patients into distinct subtypes. Moreover, growth patterns of PDAC may be described using physical principles, enabling new insights into diagnosis and treatment of this deadly disease.

AB - Purpose: Pancreatic ductal adenocarcinoma (PDAC) is a heterogeneous disease with variable presentations and natural histories of disease. We hypothesized that different morphologic characteristics of PDAC tumors on diagnostic computed tomography (CT) scans would reflect their underlying biology. Experimental Design: We developed a quantitative method to categorize the PDAC morphology on pretherapy CT scans from multiple datasets of patients with resectable and metastatic disease and correlated these patterns with clinical/pathologic measurements. We modeled macroscopic lesion growth computationally to test the effects of stroma on morphologic patterns, hypothesizing that the balance of proliferation and local migration rates of the cancer cells would determine tumor morphology. Results: In localized and metastatic PDAC, quantifying the change in enhancement on CT scans at the interface between tumor and parenchyma (delta) demonstrated that patients with conspicuous (high-delta) tumors had significantly less stroma, higher likelihood of multiple common pathway mutations, more mesenchymal features, higher likelihood of early distant metastasis, and shorter survival times compared with those with inconspicuous (low-delta) tumors. Pathologic measurements of stromal and mesenchymal features of the tumors supported the mathematical model's underlying theory for PDAC growth. Conclusions: At baseline diagnosis, a visually striking and quantifiable CT imaging feature reflects the molecular and pathological heterogeneity of PDAC, and may be used to stratify patients into distinct subtypes. Moreover, growth patterns of PDAC may be described using physical principles, enabling new insights into diagnosis and treatment of this deadly disease.

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U2 - 10.1158/1078-0432.CCR-17-3668

DO - 10.1158/1078-0432.CCR-17-3668

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SN - 1078-0432

VL - 24

SP - 5883

EP - 5894

JO - Clinical Cancer Research

JF - Clinical Cancer Research

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ER -

A visually apparent and quantifiable CT imaging feature identifies biophysical subtypes of pancreatic ductal adenocarcinoma

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