Multiphoton microscopy for pre-clinical evaluation of flow-diverter stents for treating aneurysms - 29/03/20

Doi : 10.1016/j.neurad.2020.03.005

Sylvia M. Bardet ^a,⁎ , Jonathan Cortese ^b,^c, Raphaël Blanc ^d, Charbel Mounayer ^a,^e, Aymeric Rouchaud ^a,⁎, ^e
^a University of Limoges, 123, avenue Albert-Thomas, XLIM UMR CNRS 7252, 87060 Limoges, France
^b Bichat University Hospital, INSERM U1148–LVTS, Paris, France
^c Bicetre Hospital, Department of Interventional Neuroradiology, Paris, France
^d Department of Interventional Neuroradiology, Fondation Ophtalmologique Adolphe-de-Rothschild, Paris, France
^e University Hospital, Department of Interventional Neuroradiology, Limoges, France

^⁎Corresponding authors.

En prensa. Pruebas corregidas por el autor. Disponible en línea desde el Sunday 29 March 2020
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Graphical abstract

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Highlights

•	Detailed analyses of neo-endothelialisation and ECM evolution after flow-diverter stent (FDS).
•	Autofluorescence, endothelial cells and second harmonic generation (SHG) signals from biological tissues were used to evaluate the endovascular treatment of intracranial aneurysms.
•	Improved label-free multiphoton microscopy quantification of FDS integration into the arterial wall.

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Abstract

Background

Conventional histological analyses are the gold standard for the study of aneurysms and vascular pathologies in pre-clinical research. Over the past decade, in vivo and ex vivo imaging using multiphoton microscopy have emerged as powerful pre-clinical tools for detailed tissue analyses that can assess morphology, the extracellular matrix (ECM), cell density and vascularisation. Multiphoton microscopy allows for deeper tissue penetration with minor phototoxicity.

Objective

The present study aimed to demonstrate the current status of multimodality imaging, including multiphoton microscopy, for detailed analyses of neo-endothelialisation and ECM evolution after flow-diverter stent (FDS) treatment in an experimental rabbit model of aneurysms.

Methods

Multiphoton microscopy tools for assessing autofluorescence and second harmonic generation (SHG) signals from biological tissues were used to evaluate the endovascular treatment of intracranial aneurysms in an animal model of aneurysms (pig, rabbit). Results from multiphoton microscopy were compared to those from standard histology, electronic and bright field microscopy.

Conclusions

The present study describes novel evaluation modes based on multiphoton microscopy for visualising tissue morphology (e.g., collagen, elastin, and cells) to qualify and quantify the extent of neo-intimal formation of covered arteries and device integration into the arterial wall using a rabbit model of intracranial aneurysms treated with FDS.

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Keywords : Aneurysms, Endovascular treatment, Stenting, Flow-Diverter, Multiphoton microscopy, Second harmonic generation

Abbreviations : FD, HBSS, PMT, SHG