Abstract

PurposeThe purpose of the study was to demonstrate the performance and possible applications of an intravital microscopy assay using a standard fluorescence microscope.MethodsMelanoma and pancreatic ductal adenocarcinoma xenografts were initiated in dorsal window chambers and subjected to repeated intravital microscopy. The entire tumor vasculature as well as the normal tissue surrounding the tumor was imaged simultaneously with high spatial and temporal resolution. Vascular morphology images were recorded by using transillumination, and vascular masks were produced to quantify vessel density, vessel diameter, vessel segment length, and vessel tortuosity. First-pass imaging movies were recorded after an intervenous injection of a fluorescent marker and were used to investigate vascular function. Lymphatics were visualized by intradermal injections of a fluorescent marker.ResultsThe intravital microscopy assay was used to study tumor growth and vascularization, tumor vessel morphology and function, tumor-associated lymphatics, and vascular effects of acute cyclic hypoxia and antiangiogenic treatment. The assay was sensitive to tumor-line differences in vascular morphology and function and detected tumor-induced lymphatic dilation. Acute cyclic hypoxia induced angiogenesis and increased the density of small diameter vessels and blood supply times, whereas antiangiogenic treatment selectively removed small-diameter vessels, reduced blood supply times, and induced hypoxia. Moreover, the window chamber was compatible with magnetic resonance imaging (MRI), and parametric images derived by dynamic contrast-enhanced MRI were shown to reflect vascular morphology and function.ConclusionsThe presented assay represents a useful and affordable alternative to intravital microscopy assays using confocal and multi-photon microscopes.

Highlights

  • The vasculature in normal tissues is strictly organized to secure sufficient supply of oxygen and nutrients and effective removal of waste products

  • Our laboratory has developed a dorsal window chamber compatible with magnetic resonance imaging (MRI), and an intravital microscopy assay for studying tumors growing in dorsal window chambers as well as the normal tissue surrounding the tumors

  • We present the intravital microscopy assay and describe experiments where we have used the assay to study tumor growth, vascularization, vessel morphology and function, lymphatics, and vascular effects of acute cyclic hypoxia and antiangiogenic treatment

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Summary

Introduction

The vasculature in normal tissues is strictly organized to secure sufficient supply of oxygen and nutrients and effective removal of waste products. Detailed studies of tumor vasculature have been performed by the use of window chamber preparations and intravital microscopy techniques [10,11,12,13] These methods are attractive because they allow high-resolution imaging of vascular morphology and function, and because the imaging can be repeated during growth and during treatments. Our laboratory has developed a dorsal window chamber compatible with magnetic resonance imaging (MRI), and an intravital microscopy assay for studying tumors growing in dorsal window chambers as well as the normal tissue surrounding the tumors. This assay can be performed with a standard fluorescence microscope available in most laboratories. We report an MRI-experiment demonstrating the potential of the MR-compatible window chamber for dynamic contrastenhanced MRI (DCE-MRI)

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