Intra-tumoral heterogeneity of gemcitabine delivery and mass transport in human pancreatic cancer

Eugene J. Koay; Flavio E. Baio; Alexander Ondari; Mark J. Truty; Vittorio Cristini; Ryan M. Thomas; Rong Chen; Deyali Chatterjee; Ya'An Kang; Joy Zhang; Laurence Court; Priya R. Bhosale; Eric P. Tamm; Aliya Qayyum; Christopher H. Crane; Milind Javle; Matthew H. Katz; Vijaya N. Gottumukkala; Marc A. Rozner; Haifa Shen; Jeffrey E. Lee; Huamin Wang; Yuling Chen; William Plunkett; James L. Abbruzzese; Robert A. Wolff; Anirban Maitra; Mauro Ferrari; Gauri R. Varadhachary; Jason B. Fleming

doi:10.1088/1478-3975/11/6/065002

Intra-tumoral heterogeneity of gemcitabine delivery and mass transport in human pancreatic cancer

Eugene J. Koay, Flavio E. Baio, Alexander Ondari, Mark J. Truty, Vittorio Cristini, Ryan M. Thomas, Rong Chen, Deyali Chatterjee, Ya'An Kang, Joy Zhang, Laurence Court, Priya R. Bhosale, Eric P. Tamm, Aliya Qayyum, Christopher H. Crane, Milind Javle, Matthew H. Katz, Vijaya N. Gottumukkala, Marc A. Rozner, Haifa ShenJeffrey E. Lee, Huamin Wang, Yuling Chen, William Plunkett, James L. Abbruzzese, Robert A. Wolff, Anirban Maitra, Mauro Ferrari, Gauri R. Varadhachary, Jason B. Fleming

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30 Scopus citations

Abstract

There is substantial heterogeneity in the clinical behavior of pancreatic cancer and in its response to therapy. Some of this variation may be due to differences in delivery of cytotoxic therapies between patients and within individual tumors. Indeed, in 12 patients with resectable pancreatic cancer, we previously demonstrated wide inter-patient variability in the delivery of gemcitabine as well as in the mass transport properties of tumors as measured by computed tomography (CT) scans. However, the variability of drug delivery and transport properties within pancreatic tumors is currently unknown. Here, we analyzed regional measurements of gemcitabine DNA incorporation in the tumors of the same 12 patients to understand the degree of intra-tumoral heterogeneity of drug delivery. We also developed a volumetric segmentation approach to measure mass transport properties from the CT scans of these patients and tested inter-observer agreement with this new methodology. Our results demonstrate significant heterogeneity of gemcitabine delivery within individual pancreatic tumors and across the patient cohort, with gemcitabine DNA incorporation in the inner portion of the tumors ranging from 38 to 74% of the total. Similarly, the CT-derived mass transport properties of the tumors had a high degree of heterogeneity, ranging from minimal difference to almost 200% difference between inner and outer portions of the tumor. Our quantitative method to derive transport properties from CT scans demonstrated less than 5% difference in gemcitabine prediction at the average CT-derived transport value across observers. These data illustrate significant inter-patient and intra-tumoral heterogeneity in the delivery of gemcitabine, and highlight how this variability can be reproducibly accounted for using principles of mass transport. With further validation as a biophysical marker, transport properties of tumors may be useful in patient selection for therapy and prediction of therapeutic outcome.

Original language	English (US)
Article number	065002
Journal	Physical biology
Volume	11
Issue number	6
DOIs	https://doi.org/10.1088/1478-3975/11/6/065002
State	Published - Dec 1 2014

Keywords

drug delivery
mass transport
pancreatic cancer

ASJC Scopus subject areas

Biophysics
Structural Biology
Molecular Biology
Cell Biology

MD Anderson CCSG core facilities

Tissue Biospecimen and Pathology Resource

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10.1088/1478-3975/11/6/065002

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Koay, E. J., Baio, F. E., Ondari, A., Truty, M. J., Cristini, V., Thomas, R. M., Chen, R., Chatterjee, D., Kang, YA., Zhang, J., Court, L., Bhosale, P. R., Tamm, E. P., Qayyum, A., Crane, C. H., Javle, M., Katz, M. H., Gottumukkala, V. N., Rozner, M. A., ... Fleming, J. B. (2014). Intra-tumoral heterogeneity of gemcitabine delivery and mass transport in human pancreatic cancer. Physical biology, 11(6), Article 065002. https://doi.org/10.1088/1478-3975/11/6/065002

Koay, EJ, Baio, FE, Ondari, A, Truty, MJ, Cristini, V, Thomas, RM, Chen, R , Chatterjee, D , Kang, YA, Zhang, J, Court, L , Bhosale, PR , Tamm, EP, Qayyum, A, Crane, CH, Javle, M , Katz, MH , Gottumukkala, VN, Rozner, MA, Shen, H, Lee, JE , Wang, H, Chen, Y, Plunkett, W, Abbruzzese, JL, Wolff, RA , Maitra, A, Ferrari, M, Varadhachary, GR & Fleming, JB 2014, 'Intra-tumoral heterogeneity of gemcitabine delivery and mass transport in human pancreatic cancer', Physical biology, vol. 11, no. 6, 065002. https://doi.org/10.1088/1478-3975/11/6/065002

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title = "Intra-tumoral heterogeneity of gemcitabine delivery and mass transport in human pancreatic cancer",

abstract = "There is substantial heterogeneity in the clinical behavior of pancreatic cancer and in its response to therapy. Some of this variation may be due to differences in delivery of cytotoxic therapies between patients and within individual tumors. Indeed, in 12 patients with resectable pancreatic cancer, we previously demonstrated wide inter-patient variability in the delivery of gemcitabine as well as in the mass transport properties of tumors as measured by computed tomography (CT) scans. However, the variability of drug delivery and transport properties within pancreatic tumors is currently unknown. Here, we analyzed regional measurements of gemcitabine DNA incorporation in the tumors of the same 12 patients to understand the degree of intra-tumoral heterogeneity of drug delivery. We also developed a volumetric segmentation approach to measure mass transport properties from the CT scans of these patients and tested inter-observer agreement with this new methodology. Our results demonstrate significant heterogeneity of gemcitabine delivery within individual pancreatic tumors and across the patient cohort, with gemcitabine DNA incorporation in the inner portion of the tumors ranging from 38 to 74% of the total. Similarly, the CT-derived mass transport properties of the tumors had a high degree of heterogeneity, ranging from minimal difference to almost 200% difference between inner and outer portions of the tumor. Our quantitative method to derive transport properties from CT scans demonstrated less than 5% difference in gemcitabine prediction at the average CT-derived transport value across observers. These data illustrate significant inter-patient and intra-tumoral heterogeneity in the delivery of gemcitabine, and highlight how this variability can be reproducibly accounted for using principles of mass transport. With further validation as a biophysical marker, transport properties of tumors may be useful in patient selection for therapy and prediction of therapeutic outcome.",

keywords = "drug delivery, mass transport, pancreatic cancer",

author = "Koay, {Eugene J.} and Baio, {Flavio E.} and Alexander Ondari and Truty, {Mark J.} and Vittorio Cristini and Thomas, {Ryan M.} and Rong Chen and Deyali Chatterjee and Ya'An Kang and Joy Zhang and Laurence Court and Bhosale, {Priya R.} and Tamm, {Eric P.} and Aliya Qayyum and Crane, {Christopher H.} and Milind Javle and Katz, {Matthew H.} and Gottumukkala, {Vijaya N.} and Rozner, {Marc A.} and Haifa Shen and Lee, {Jeffrey E.} and Huamin Wang and Yuling Chen and William Plunkett and Abbruzzese, {James L.} and Wolff, {Robert A.} and Anirban Maitra and Mauro Ferrari and Varadhachary, {Gauri R.} and Fleming, {Jason B.}",

note = "Publisher Copyright: {\textcopyright} 2014 IOP Publishing Ltd.",

year = "2014",

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doi = "10.1088/1478-3975/11/6/065002",

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T1 - Intra-tumoral heterogeneity of gemcitabine delivery and mass transport in human pancreatic cancer

AU - Koay, Eugene J.

AU - Baio, Flavio E.

AU - Ondari, Alexander

AU - Truty, Mark J.

AU - Cristini, Vittorio

AU - Thomas, Ryan M.

AU - Chen, Rong

AU - Chatterjee, Deyali

AU - Kang, Ya'An

AU - Zhang, Joy

AU - Court, Laurence

AU - Bhosale, Priya R.

AU - Tamm, Eric P.

AU - Qayyum, Aliya

AU - Crane, Christopher H.

AU - Javle, Milind

AU - Katz, Matthew H.

AU - Gottumukkala, Vijaya N.

AU - Rozner, Marc A.

AU - Shen, Haifa

AU - Lee, Jeffrey E.

AU - Wang, Huamin

AU - Chen, Yuling

AU - Plunkett, William

AU - Abbruzzese, James L.

AU - Wolff, Robert A.

AU - Maitra, Anirban

AU - Ferrari, Mauro

AU - Varadhachary, Gauri R.

AU - Fleming, Jason B.

PY - 2014/12/1

Y1 - 2014/12/1

N2 - There is substantial heterogeneity in the clinical behavior of pancreatic cancer and in its response to therapy. Some of this variation may be due to differences in delivery of cytotoxic therapies between patients and within individual tumors. Indeed, in 12 patients with resectable pancreatic cancer, we previously demonstrated wide inter-patient variability in the delivery of gemcitabine as well as in the mass transport properties of tumors as measured by computed tomography (CT) scans. However, the variability of drug delivery and transport properties within pancreatic tumors is currently unknown. Here, we analyzed regional measurements of gemcitabine DNA incorporation in the tumors of the same 12 patients to understand the degree of intra-tumoral heterogeneity of drug delivery. We also developed a volumetric segmentation approach to measure mass transport properties from the CT scans of these patients and tested inter-observer agreement with this new methodology. Our results demonstrate significant heterogeneity of gemcitabine delivery within individual pancreatic tumors and across the patient cohort, with gemcitabine DNA incorporation in the inner portion of the tumors ranging from 38 to 74% of the total. Similarly, the CT-derived mass transport properties of the tumors had a high degree of heterogeneity, ranging from minimal difference to almost 200% difference between inner and outer portions of the tumor. Our quantitative method to derive transport properties from CT scans demonstrated less than 5% difference in gemcitabine prediction at the average CT-derived transport value across observers. These data illustrate significant inter-patient and intra-tumoral heterogeneity in the delivery of gemcitabine, and highlight how this variability can be reproducibly accounted for using principles of mass transport. With further validation as a biophysical marker, transport properties of tumors may be useful in patient selection for therapy and prediction of therapeutic outcome.

AB - There is substantial heterogeneity in the clinical behavior of pancreatic cancer and in its response to therapy. Some of this variation may be due to differences in delivery of cytotoxic therapies between patients and within individual tumors. Indeed, in 12 patients with resectable pancreatic cancer, we previously demonstrated wide inter-patient variability in the delivery of gemcitabine as well as in the mass transport properties of tumors as measured by computed tomography (CT) scans. However, the variability of drug delivery and transport properties within pancreatic tumors is currently unknown. Here, we analyzed regional measurements of gemcitabine DNA incorporation in the tumors of the same 12 patients to understand the degree of intra-tumoral heterogeneity of drug delivery. We also developed a volumetric segmentation approach to measure mass transport properties from the CT scans of these patients and tested inter-observer agreement with this new methodology. Our results demonstrate significant heterogeneity of gemcitabine delivery within individual pancreatic tumors and across the patient cohort, with gemcitabine DNA incorporation in the inner portion of the tumors ranging from 38 to 74% of the total. Similarly, the CT-derived mass transport properties of the tumors had a high degree of heterogeneity, ranging from minimal difference to almost 200% difference between inner and outer portions of the tumor. Our quantitative method to derive transport properties from CT scans demonstrated less than 5% difference in gemcitabine prediction at the average CT-derived transport value across observers. These data illustrate significant inter-patient and intra-tumoral heterogeneity in the delivery of gemcitabine, and highlight how this variability can be reproducibly accounted for using principles of mass transport. With further validation as a biophysical marker, transport properties of tumors may be useful in patient selection for therapy and prediction of therapeutic outcome.

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KW - mass transport

KW - pancreatic cancer

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SN - 1478-3967

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JO - Physical biology

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ER -

Intra-tumoral heterogeneity of gemcitabine delivery and mass transport in human pancreatic cancer

Abstract

Keywords

ASJC Scopus subject areas

MD Anderson CCSG core facilities

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