Efficient measurement of total tumor microvascularity ex vivo using a mathematical model to optimize volume subsampling
We introduce immunofluorescence and automated image processing protocols for serial tumor sections to objectively and efficiently quantify tumor microvasculature following antivascular therapy. To determine the trade-off between tumor subsampling and throughput versus microvessel quantification accu...
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| Published in | Journal of biomedical optics Vol. 18; no. 9; p. 096015 |
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| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Society of Photo-Optical Instrumentation Engineers
01.09.2013
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1083-3668 1560-2281 |
| DOI | 10.1117/1.JBO.18.9.096015 |
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| Abstract | We introduce immunofluorescence and automated image processing protocols for serial tumor sections to objectively and efficiently quantify tumor microvasculature following antivascular therapy. To determine the trade-off between tumor subsampling and throughput versus microvessel quantification accuracy, we provide a mathematical model that accounts for tumor-specific vascular heterogeneity. This mathematical model can be applied broadly to define tumor volume samplings needed to reach statistical significance, depending on the biomarker in question and the number of subjects. Here, we demonstrate these concepts for tumor microvessel density and total microvascularity (TMV) quantification in whole pancreatic ductal adenocarcinoma tumors ex vivo. The results suggest that TMV is a more sensitive biomarker for detecting reductions in tumor vasculature following antivascular treatment. TMV imaging is a broadly accessible technique that offers robust assessment of antivascular therapies, and it offers promise as a tool for developing high-throughput assays to quantify treatment-induced microvascular alterations for therapeutic screening and development. |
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| AbstractList | We introduce immunofluorescence and automated image processing protocols for serial tumor sections to objectively and efficiently quantify tumor microvasculature following antivascular therapy. To determine the trade-off between tumor subsampling and throughput versus microvessel quantification accuracy, we provide a mathematical model that accounts for tumor-specific vascular heterogeneity. This mathematical model can beapplied broadly to define tumor volume samplings needed to reach statistical significance, depending on the biomarker in question and the number of subjects. Here, we demonstrate these concepts for tumor microvessel density and total microvascularity (TMV) quantification in whole pancreatic ductal adenocarcinoma tumors ex vivo. The results suggest that TMV is a more sensitive biomarker for detecting reductions in tumor vasculature following antivascular treatment. TMV imaging is a broadly accessible technique that offers robust assessment of antivascular therapies, and it offers promise as a tool for developing high-throughput assays to quantify treatment-induced microvascular alterations for therapeutic screening and development. We introduce immunofluorescence and automated image processing protocols for serial tumor sections to objectively and efficiently quantify tumor microvasculature following antivascular therapy. To determine the trade-off between tumor subsampling and throughput versus microvessel quantification accuracy, we provide a mathematical model that accounts for tumor-specific vascular heterogeneity. This mathematical model can be applied broadly to define tumor volume samplings needed to reach statistical significance, depending on the biomarker in question and the number of subjects. Here, we demonstrate these concepts for tumor microvessel density and total microvascularity (TMV) quantification in whole pancreatic ductal adenocarcinoma tumors ex vivo. The results suggest that TMV is a more sensitive biomarker for detecting reductions in tumor vasculature following antivascular treatment. TMV imaging is a broadly accessible technique that offers robust assessment of antivascular therapies, and it offers promise as a tool for developing high-throughput assays to quantify treatment-induced microvascular alterations for therapeutic screening and development. |
| Author | Palanisami, Akilan Bryan Sears, R Spring, Bryan Q Blatt, Amy E Hasan, Tayyaba Zheng, Lei Zak |
| Author_xml | – sequence: 1 givenname: Bryan Q surname: Spring fullname: Spring, Bryan Q organization: aMassachusetts General Hospital, Wellman Center for Photomedicine, Harvard Medical School, Boston, Massachusetts – sequence: 2 givenname: Akilan surname: Palanisami fullname: Palanisami, Akilan organization: aMassachusetts General Hospital, Wellman Center for Photomedicine, Harvard Medical School, Boston, Massachusetts – sequence: 3 givenname: Lei Zak surname: Zheng fullname: Zheng, Lei Zak organization: aMassachusetts General Hospital, Wellman Center for Photomedicine, Harvard Medical School, Boston, Massachusetts – sequence: 4 givenname: Amy E surname: Blatt fullname: Blatt, Amy E organization: cHarvard-MIT Health Sciences and Technology, Cambridge, Massachusetts – sequence: 5 givenname: R surname: Bryan Sears fullname: Bryan Sears, R organization: bEmmanuel College, Department of Chemistry, Boston, Massachusetts – sequence: 6 givenname: Tayyaba surname: Hasan fullname: Hasan, Tayyaba email: thasan@mgh.harvard.edu organization: dMassachusetts General Hospital, Department of Dermatology, Boston, Massachusetts |
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| Keywords | antiangiogenic therapy photodynamic therapy fluorescence imaging antivascular therapy microvessel density cancer immunohistochemistry image analysis |
| Language | English |
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| Title | Efficient measurement of total tumor microvascularity ex vivo using a mathematical model to optimize volume subsampling |
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