Robustness of the wide-field imaging Mueller polarimetry for brain tissue differentiation and white matter fiber tract identification in a surgery-like environment: an ex vivo study

Leonard Felger; Omar Rodríguez-Núñez; Romain Gros; Theoni Maragkou; Richard McKinley; Stefano Moriconi; Michael Murek; Irena Zubak; Tatiana Novikova; Angelo Pierangelo; Philippe Schucht

doi:10.1364/BOE.486438

Robustness of the wide-field imaging Mueller polarimetry for brain tissue differentiation and white matter fiber tract identification in a surgery-like environment: an ex vivo study

Leonard Felger
, Omar Rodríguez-Núñez
, Romain Gros
, Theoni Maragkou
, Richard McKinley
, Stefano Moriconi
, Michael Murek
, Irena Zubak
, Tatiana Novikova
, Angelo Pierangelo
, Philippe Schucht

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

Abstract

During neurooncological surgery, the visual differentiation of healthy and diseased tissue is often challenging. Wide-field imaging Muller polarimetry (IMP) is a promising technique for tissue discrimination and in-plane brain fiber tracking in an interventional setup. However, the intraoperative implementation of IMP requires realizing imaging in the presence of remanent blood, and complex surface topography resulting from the use of an ultrasonic cavitation device. We report on the impact of both factors on the quality of polarimetric images of the surgical resection cavities reproduced in fresh animal cadaveric brains. The robustness of IMP is observed under adverse experimental conditions, suggesting a feasible translation of IMP for in vivo neurosurgical applications.

Original language	English
Pages (from-to)	2400-2415
Number of pages	16
Journal	Biomedical Optics Express
Volume	14
Issue number	5
DOIs	https://doi.org/10.1364/BOE.486438
Publication status	Published - 1 May 2023

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10.1364/BOE.486438

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Felger, L., Rodríguez-Núñez, O., Gros, R., Maragkou, T., McKinley, R., Moriconi, S., Murek, M., Zubak, I., Novikova, T., Pierangelo, A., & Schucht, P. (2023). Robustness of the wide-field imaging Mueller polarimetry for brain tissue differentiation and white matter fiber tract identification in a surgery-like environment: an ex vivo study. Biomedical Optics Express, 14(5), 2400-2415. https://doi.org/10.1364/BOE.486438

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title = "Robustness of the wide-field imaging Mueller polarimetry for brain tissue differentiation and white matter fiber tract identification in a surgery-like environment: an ex vivo study",

abstract = "During neurooncological surgery, the visual differentiation of healthy and diseased tissue is often challenging. Wide-field imaging Muller polarimetry (IMP) is a promising technique for tissue discrimination and in-plane brain fiber tracking in an interventional setup. However, the intraoperative implementation of IMP requires realizing imaging in the presence of remanent blood, and complex surface topography resulting from the use of an ultrasonic cavitation device. We report on the impact of both factors on the quality of polarimetric images of the surgical resection cavities reproduced in fresh animal cadaveric brains. The robustness of IMP is observed under adverse experimental conditions, suggesting a feasible translation of IMP for in vivo neurosurgical applications.",

author = "Leonard Felger and Omar Rodr{\'i}guez-N{\'u}{\~n}ez and Romain Gros and Theoni Maragkou and Richard McKinley and Stefano Moriconi and Michael Murek and Irena Zubak and Tatiana Novikova and Angelo Pierangelo and Philippe Schucht",

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year = "2023",

month = may,

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doi = "10.1364/BOE.486438",

language = "English",

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Felger, L, Rodríguez-Núñez, O, Gros, R, Maragkou, T, McKinley, R, Moriconi, S, Murek, M, Zubak, I, Novikova, T, Pierangelo, A & Schucht, P 2023, 'Robustness of the wide-field imaging Mueller polarimetry for brain tissue differentiation and white matter fiber tract identification in a surgery-like environment: an ex vivo study', Biomedical Optics Express, vol. 14, no. 5, pp. 2400-2415. https://doi.org/10.1364/BOE.486438

Robustness of the wide-field imaging Mueller polarimetry for brain tissue differentiation and white matter fiber tract identification in a surgery-like environment: an ex vivo study. / Felger, Leonard; Rodríguez-Núñez, Omar; Gros, Romain et al.
In: Biomedical Optics Express, Vol. 14, No. 5, 01.05.2023, p. 2400-2415.

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

TY - JOUR

T1 - Robustness of the wide-field imaging Mueller polarimetry for brain tissue differentiation and white matter fiber tract identification in a surgery-like environment

T2 - an ex vivo study

AU - Felger, Leonard

AU - Rodríguez-Núñez, Omar

AU - Gros, Romain

AU - Maragkou, Theoni

AU - McKinley, Richard

AU - Moriconi, Stefano

AU - Murek, Michael

AU - Zubak, Irena

AU - Novikova, Tatiana

AU - Pierangelo, Angelo

AU - Schucht, Philippe

PY - 2023/5/1

Y1 - 2023/5/1

N2 - During neurooncological surgery, the visual differentiation of healthy and diseased tissue is often challenging. Wide-field imaging Muller polarimetry (IMP) is a promising technique for tissue discrimination and in-plane brain fiber tracking in an interventional setup. However, the intraoperative implementation of IMP requires realizing imaging in the presence of remanent blood, and complex surface topography resulting from the use of an ultrasonic cavitation device. We report on the impact of both factors on the quality of polarimetric images of the surgical resection cavities reproduced in fresh animal cadaveric brains. The robustness of IMP is observed under adverse experimental conditions, suggesting a feasible translation of IMP for in vivo neurosurgical applications.

AB - During neurooncological surgery, the visual differentiation of healthy and diseased tissue is often challenging. Wide-field imaging Muller polarimetry (IMP) is a promising technique for tissue discrimination and in-plane brain fiber tracking in an interventional setup. However, the intraoperative implementation of IMP requires realizing imaging in the presence of remanent blood, and complex surface topography resulting from the use of an ultrasonic cavitation device. We report on the impact of both factors on the quality of polarimetric images of the surgical resection cavities reproduced in fresh animal cadaveric brains. The robustness of IMP is observed under adverse experimental conditions, suggesting a feasible translation of IMP for in vivo neurosurgical applications.

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DO - 10.1364/BOE.486438

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ER -

Robustness of the wide-field imaging Mueller polarimetry for brain tissue differentiation and white matter fiber tract identification in a surgery-like environment: an ex vivo study

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