Correlated magnetic resonance imaging and ultramicroscopy (MR-UM) is a tool kit to assess the dynamics of glioma angiogenesis

Michael O. Breckwoldt; Julia Bode; Felix T. Kurz; Angelika Hoffmann; Katharina Ochs; Martina Ott; Katrin Deumelandt; Thomas Krüwel; Daniel Schwarz; Manuel Fischer; Xavier Helluy; David Milford; Klara Kirschbaum; Gergely Solecki; Sara Chiblak; Amir Abdollahi; Frank Winkler; Wolfgang Wick; Michael Platten; Sabine Heiland; Martin Bendszus; Björn Tews

doi:10.7554/eLife.11712

Correlated magnetic resonance imaging and ultramicroscopy (MR-UM) is a tool kit to assess the dynamics of glioma angiogenesis

Michael O. Breckwoldt, Julia Bode, Felix T. Kurz, Angelika Hoffmann, Katharina Ochs, Martina Ott, Katrin Deumelandt, Thomas Krüwel, Daniel Schwarz, Manuel Fischer, Xavier Helluy, David Milford, Klara Kirschbaum, Gergely Solecki, Sara Chiblak, Amir Abdollahi, Frank Winkler, Wolfgang Wick, Michael Platten, Sabine HeilandMartin Bendszus, Björn Tews

Research output: Contribution to journal › Article › peer-review

33 Scopus citations

Abstract

Neoangiogenesis is a pivotal therapeutic target in glioblastoma. Tumor monitoring requires imaging methods to assess treatment effects and disease progression. Until now mapping of the tumor vasculature has been difficult. We have developed a combined magnetic resonance and optical toolkit to study neoangiogenesis in glioma models. We use in vivo magnetic resonance imaging (MRI) and correlative ultramicroscopy (UM) of ex vivo cleared whole brains to track neovascularization. T2* imaging allows the identification of single vessels in glioma development and the quantification of neovessels over time. Pharmacological VEGF inhibition leads to partial vascular normalization with decreased vessel caliber, density, and permeability. To further resolve the tumor microvasculature, we performed correlated UM of fluorescently labeled microvessels in cleared brains. UM resolved typical features of neoangiogenesis and tumor cell invasion with a spatial resolution of ~5 µm. MR-UM can be used as a platform for three-dimensional mapping and high-resolution quantification of tumor angiogenesis.

Original language	English (US)
Article number	e11712
Journal	eLife
Volume	5
Issue number	FEBRUARY2016
DOIs	https://doi.org/10.7554/eLife.11712
State	Published - Feb 2 2016

ASJC Scopus subject areas

General Neuroscience
General Biochemistry, Genetics and Molecular Biology
General Immunology and Microbiology

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10.7554/eLife.11712

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Breckwoldt, M. O., Bode, J., Kurz, F. T., Hoffmann, A., Ochs, K., Ott, M., Deumelandt, K., Krüwel, T., Schwarz, D., Fischer, M., Helluy, X., Milford, D., Kirschbaum, K., Solecki, G., Chiblak, S., Abdollahi, A., Winkler, F., Wick, W., Platten, M., ... Tews, B. (2016). Correlated magnetic resonance imaging and ultramicroscopy (MR-UM) is a tool kit to assess the dynamics of glioma angiogenesis. eLife, 5(FEBRUARY2016), Article e11712. https://doi.org/10.7554/eLife.11712

Breckwoldt, MO, Bode, J, Kurz, FT, Hoffmann, A, Ochs, K, Ott, M, Deumelandt, K, Krüwel, T, Schwarz, D, Fischer, M, Helluy, X, Milford, D, Kirschbaum, K, Solecki, G, Chiblak, S, Abdollahi, A, Winkler, F, Wick, W, Platten, M, Heiland, S, Bendszus, M & Tews, B 2016, 'Correlated magnetic resonance imaging and ultramicroscopy (MR-UM) is a tool kit to assess the dynamics of glioma angiogenesis', eLife, vol. 5, no. FEBRUARY2016, e11712. https://doi.org/10.7554/eLife.11712

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title = "Correlated magnetic resonance imaging and ultramicroscopy (MR-UM) is a tool kit to assess the dynamics of glioma angiogenesis",

abstract = "Neoangiogenesis is a pivotal therapeutic target in glioblastoma. Tumor monitoring requires imaging methods to assess treatment effects and disease progression. Until now mapping of the tumor vasculature has been difficult. We have developed a combined magnetic resonance and optical toolkit to study neoangiogenesis in glioma models. We use in vivo magnetic resonance imaging (MRI) and correlative ultramicroscopy (UM) of ex vivo cleared whole brains to track neovascularization. T2* imaging allows the identification of single vessels in glioma development and the quantification of neovessels over time. Pharmacological VEGF inhibition leads to partial vascular normalization with decreased vessel caliber, density, and permeability. To further resolve the tumor microvasculature, we performed correlated UM of fluorescently labeled microvessels in cleared brains. UM resolved typical features of neoangiogenesis and tumor cell invasion with a spatial resolution of ~5 µm. MR-UM can be used as a platform for three-dimensional mapping and high-resolution quantification of tumor angiogenesis.",

author = "Breckwoldt, {Michael O.} and Julia Bode and Kurz, {Felix T.} and Angelika Hoffmann and Katharina Ochs and Martina Ott and Katrin Deumelandt and Thomas Kr{\"u}wel and Daniel Schwarz and Manuel Fischer and Xavier Helluy and David Milford and Klara Kirschbaum and Gergely Solecki and Sara Chiblak and Amir Abdollahi and Frank Winkler and Wolfgang Wick and Michael Platten and Sabine Heiland and Martin Bendszus and Bj{\"o}rn Tews",

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AU - Ochs, Katharina

AU - Ott, Martina

AU - Deumelandt, Katrin

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AU - Abdollahi, Amir

AU - Winkler, Frank

AU - Wick, Wolfgang

AU - Platten, Michael

AU - Heiland, Sabine

AU - Bendszus, Martin

AU - Tews, Björn

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Correlated magnetic resonance imaging and ultramicroscopy (MR-UM) is a tool kit to assess the dynamics of glioma angiogenesis

Abstract

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