Development of a Novel Preclinical Pancreatic Cancer Research Model: Bioluminescence Image- Guided Focal Irradiation and Tumor Monitoring of Orthotopic Xenografts

Abstract PURPOSE: We report on a novel preclinical pancreatic cancer research model that uses bioluminescence imaging (BLI)-guided irradiation of orthotopic xenograft tumors, sparing of surrounding normal tissues, and quantitative, noninvasive longitudinal assessment of treatment response. MATERIALS...

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Published in:Translational oncology 2012-04, Vol.5 (2), p.77-84
Main Authors: Tuli, Richard, Surmak, Andrew, Reyes, Juvenal, Hacker-Prietz, Amy, Armour, Michael, Leubner, Ashley, Blackford, Amanda, Tryggestad, Erik, Jaffee, Elizabeth M, Wong, John, DeWeese, Theodore L, Herman, Joseph M
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Oncology
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container_end_page 84
container_issue 2
container_start_page 77
container_title Translational oncology
container_volume 5
creator Tuli, Richard
Surmak, Andrew
Reyes, Juvenal
Hacker-Prietz, Amy
Armour, Michael
Leubner, Ashley
Blackford, Amanda
Tryggestad, Erik
Jaffee, Elizabeth M
Wong, John
DeWeese, Theodore L
Herman, Joseph M
description Abstract PURPOSE: We report on a novel preclinical pancreatic cancer research model that uses bioluminescence imaging (BLI)-guided irradiation of orthotopic xenograft tumors, sparing of surrounding normal tissues, and quantitative, noninvasive longitudinal assessment of treatment response. MATERIALS AND METHODS: Luciferase-expressing MiaPaCa-2 pancreatic carcinoma cells were orthotopically injected in nude mice. BLI was compared to pathologic tumor volume, and photon emission was assessed over time. BLI was correlated to positron emission tomography (PET)/computed tomography (CT) to estimate tumor dimensions. BLI and cone-beam CT (CBCT) were used to compare tumor centroid location and estimate setup error. BLI and CBCT fusion was performed to guide irradiation of tumors using the small animal radiation research platform (SARRP). DNA damage was assessed by γ-H2Ax staining. BLI was used to longitudinally monitor treatment response. RESULTS: Bioluminescence predicted tumor volume ( R = 0.8984) and increased linearly as a function of time up to a 10-fold increase in tumor burden. BLI correlated with PET/CT and necropsy specimen in size ( P < .05). Two-dimensional BLI centroid accuracy was 3.5 mm relative to CBCT. BLI-guided irradiated pancreatic tumors stained positively for γ-H2Ax, whereas surrounding normal tissues were spared. Longitudinal assessment of irradiated tumors with BLI revealed significant tumor growth delay of 20 days relative to controls. CONCLUSIONS: We have successfully applied the SARRP to a bioluminescent, orthotopic preclinical pancreas cancer model to noninvasively: 1) allow the identification of tumor burden before therapy, 2) facilitate image-guided focal radiation therapy, and 3) allow normalization of tumor burden and longitudinal assessment of treatment response.
doi_str_mv 10.1593/tlo.11316
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MATERIALS AND METHODS: Luciferase-expressing MiaPaCa-2 pancreatic carcinoma cells were orthotopically injected in nude mice. BLI was compared to pathologic tumor volume, and photon emission was assessed over time. BLI was correlated to positron emission tomography (PET)/computed tomography (CT) to estimate tumor dimensions. BLI and cone-beam CT (CBCT) were used to compare tumor centroid location and estimate setup error. BLI and CBCT fusion was performed to guide irradiation of tumors using the small animal radiation research platform (SARRP). DNA damage was assessed by γ-H2Ax staining. BLI was used to longitudinally monitor treatment response. RESULTS: Bioluminescence predicted tumor volume ( R = 0.8984) and increased linearly as a function of time up to a 10-fold increase in tumor burden. BLI correlated with PET/CT and necropsy specimen in size ( P &lt; .05). Two-dimensional BLI centroid accuracy was 3.5 mm relative to CBCT. BLI-guided irradiated pancreatic tumors stained positively for γ-H2Ax, whereas surrounding normal tissues were spared. Longitudinal assessment of irradiated tumors with BLI revealed significant tumor growth delay of 20 days relative to controls. CONCLUSIONS: We have successfully applied the SARRP to a bioluminescent, orthotopic preclinical pancreas cancer model to noninvasively: 1) allow the identification of tumor burden before therapy, 2) facilitate image-guided focal radiation therapy, and 3) allow normalization of tumor burden and longitudinal assessment of treatment response.</description><identifier>ISSN: 1936-5233</identifier><identifier>EISSN: 1936-5233</identifier><identifier>DOI: 10.1593/tlo.11316</identifier><identifier>PMID: 22496923</identifier><language>eng</language><publisher>United States: Elsevier Inc</publisher><subject>Oncology</subject><ispartof>Translational oncology, 2012-04, Vol.5 (2), p.77-84</ispartof><rights>Neoplasia Press, Inc.</rights><rights>2012 Neoplasia Press, Inc.</rights><rights>Copyright © 2012 Neoplasia Press, Inc. 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title Development of a Novel Preclinical Pancreatic Cancer Research Model: Bioluminescence Image- Guided Focal Irradiation and Tumor Monitoring of Orthotopic Xenografts
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