A step towards valid detection and quantification of lung cancer volume in experimental mice with contrast agent-based X-ray microtomography
A step towards valid detection and quantification of lung cancer volume in experimental mice with contrast agent-based X-ray microtomography
Tumor volume is a parameter used to evaluate the performance of new therapies in lung cancer research. Conventional methods that are used to estimate tumor size in mouse models fail to provide fast and reliable volumetric data for tumors grown non-subcutaneously. Here, we evaluated the use of iodine-staining combined with micro-computed tomography (micro-CT) to estimate the tumor volume of ex vivo tumor-burdened lungs. We obtained fast high spatial resolution three-dimensional information of the lungs, and we demonstrated that iodine-staining highlights tumors and unhealthy tissue. We processed iodine-stained lungs for histopathological analysis with routine hematoxylin and eosin (H&E) staining. We compared the traditional tumor burden estimation performed manually with H&E histological slices with a semi-automated method using micro-CT datasets. In mouse models that develop lung tumors with well precise boundaries, the method that we describe here enables to perform a quick estimation of tumorous tissue volume in micro-CT images. Our method overestimates the tumor burden in tumors surrounded by abnormal tissue, while traditional histopathological analysis underestimates tumor volume. We propose to embed micro-CT imaging to the traditional workflow of tumorous lung analyses in preclinical cancer research as a strategy to obtain a more accurate estimation of the total lung tumor burden.
1-10
Bidola, Pidassa
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Martins de Souza e Silva, Juliana
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Achterhold, Klaus
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Munkhbaatar, Enkhtsetseg
89fbe9d2-1649-446a-b501-8670b446c9a9
Jost, Philipp J.
66519cfb-03c0-4398-91fa-b5b9ffe5ca6a
Meinhardt, Anna Lena
39d7900a-0d12-43dd-a112-e78e66cd046c
Taphorn, Kirsten
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Zdora, Marie Christine
a2e3b04b-aef4-42f8-9e96-4707149589fb
Pfeiffer, Franz
90bfb684-c442-458c-8f10-64d0e89cbef1
Herzen, Julia
2f599af5-2bb2-481c-828f-22c05ceabc3f
2019
Bidola, Pidassa
e2a305bd-062d-44b4-b7d3-fc51c6437677
Martins de Souza e Silva, Juliana
653097cc-06f7-437d-931e-64374436ec29
Achterhold, Klaus
692161a4-204b-41d7-82a0-22abfab86dc3
Munkhbaatar, Enkhtsetseg
89fbe9d2-1649-446a-b501-8670b446c9a9
Jost, Philipp J.
66519cfb-03c0-4398-91fa-b5b9ffe5ca6a
Meinhardt, Anna Lena
39d7900a-0d12-43dd-a112-e78e66cd046c
Taphorn, Kirsten
cf732075-aa1c-4e50-a5ae-f5f1f6c4293a
Zdora, Marie Christine
a2e3b04b-aef4-42f8-9e96-4707149589fb
Pfeiffer, Franz
90bfb684-c442-458c-8f10-64d0e89cbef1
Herzen, Julia
2f599af5-2bb2-481c-828f-22c05ceabc3f
Bidola, Pidassa, Martins de Souza e Silva, Juliana, Achterhold, Klaus, Munkhbaatar, Enkhtsetseg, Jost, Philipp J., Meinhardt, Anna Lena, Taphorn, Kirsten, Zdora, Marie Christine, Pfeiffer, Franz and Herzen, Julia
(2019)
A step towards valid detection and quantification of lung cancer volume in experimental mice with contrast agent-based X-ray microtomography.
Scientific Reports, 9 (1), , [1325].
(doi:10.1038/s41598-018-37394-w).
Abstract
Tumor volume is a parameter used to evaluate the performance of new therapies in lung cancer research. Conventional methods that are used to estimate tumor size in mouse models fail to provide fast and reliable volumetric data for tumors grown non-subcutaneously. Here, we evaluated the use of iodine-staining combined with micro-computed tomography (micro-CT) to estimate the tumor volume of ex vivo tumor-burdened lungs. We obtained fast high spatial resolution three-dimensional information of the lungs, and we demonstrated that iodine-staining highlights tumors and unhealthy tissue. We processed iodine-stained lungs for histopathological analysis with routine hematoxylin and eosin (H&E) staining. We compared the traditional tumor burden estimation performed manually with H&E histological slices with a semi-automated method using micro-CT datasets. In mouse models that develop lung tumors with well precise boundaries, the method that we describe here enables to perform a quick estimation of tumorous tissue volume in micro-CT images. Our method overestimates the tumor burden in tumors surrounded by abnormal tissue, while traditional histopathological analysis underestimates tumor volume. We propose to embed micro-CT imaging to the traditional workflow of tumorous lung analyses in preclinical cancer research as a strategy to obtain a more accurate estimation of the total lung tumor burden.
Text
s41598-018-37394-w
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More information
Accepted/In Press date: 30 November 2018
e-pub ahead of print date: 4 February 2019
Published date: 2019
Identifiers
Local EPrints ID: 439118
URI: http://eprints.soton.ac.uk/id/eprint/439118
ISSN: 2045-2322
PURE UUID: bdf18292-e73d-4c2a-b554-6b23938dce53
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Date deposited: 03 Apr 2020 16:31
Last modified: 17 Mar 2024 12:39
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Contributors
Author:
Pidassa Bidola
Author:
Juliana Martins de Souza e Silva
Author:
Klaus Achterhold
Author:
Enkhtsetseg Munkhbaatar
Author:
Philipp J. Jost
Author:
Anna Lena Meinhardt
Author:
Kirsten Taphorn
Author:
Marie Christine Zdora
Author:
Franz Pfeiffer
Author:
Julia Herzen
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