Improving the calibrated fMRI estimation of CMRO2 with oxygen-sensitive Two-Photon Microscopy

Louis Gagnon; Louis Gagnon; Louis Gagnon; Sava Sakadžić; Frédéric Lesage; Philippe Pouliot; Anders M. Dale; Anna Devor; Anna Devor; Richard B. Buxton; David A. Boas

doi:10.1364/CANCER.2016.JW3A.18

Biomedical Optics 2016
OSA Technical Digest (online) (Optica Publishing Group, 2016),
paper JW3A.18
•https://doi.org/10.1364/CANCER.2016.JW3A.18

Improving the calibrated fMRI estimation of CMRO₂ with oxygen-sensitive Two-Photon Microscopy

Louis Gagnon, Sava Sakadžić, Frédéric Lesage, Philippe Pouliot, Anders M. Dale, Anna Devor, Richard B. Buxton, and David A. Boas

Cancer Imaging and Therapy 2016

Fort Lauderdale, Florida United States
25–28 April 2016
ISBN: 978-1-943580-10-1

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Joint Poster Session III (JW3A)

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L. Gagnon, S. Sakadžić, F. Lesage, P. Pouliot, A. M. Dale, A. Devor, R. B. Buxton, and D. A. Boas, "Improving the calibrated fMRI estimation of CMRO2 with oxygen-sensitive Two-Photon Microscopy," in Biomedical Optics 2016, OSA Technical Digest (online) (Optica Publishing Group, 2016), paper JW3A.18.

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Abstract

Calibrated fMRI permits estimation of relative changes in the Cerebral Metabolic Rate of Oxygen Consumption (rCMRO₂) from combined BOLD and ASL measurements during a functional task. Here, we improved the accuracy of the approach by using Two-Photon microscopic measurements of the cortical microvasculature together with first principle Monte Carlo simulations of proton diffusion across the two-photon volumes. Our method permitted us (1) to validate Calibrated fMRI from the microscopic point of view and (2) to optimize the free parameters of the biophysical model assumed, therefore increasing the accuracy of this method to estimate rCMRO₂.

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