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Auger, H., Bherer, L., Boucher, E., Hoge, R., Lesage, F., & Dehaes, M. (avril 2016). Contribution of extra-cerebral and cerebral hemodynamic signals during exercise quantified with time-domain near infrared spectroscopy [Communication écrite]. Optics and the Brain, part of Biomedical Optics 2016, Fort Lauderdale, Florida United States. Lien externe
Auger, H., Bherer, L., Boucher, É., Hoge, R., Lesage, F., & Dehaes, M. (2016). Quantification of extra-cerebral and cerebral hemoglobin concentrations during physical exercise using time-domain near infrared spectroscopy. Biomedical Optics Express, 7(10), 3826-3842. Lien externe
Brais-Brunet, S., Maltais-Tariant, R., Boudoux, C., & Dehaes, M. (juin 2023). Development of a Multifocal OCT Lens System and an Eye-Mimicking Phantom for Murine Eye Imaging [Communication écrite]. Photonics North (PN 2023), Montreal, Qc, Canada (1 page). Lien externe
Brais-Brunet, S., Maltais-Tariant, R., Boudoux, C., & Dehaes, M. (avril 2023). Development of Multifocal Optical Coherence Tomography and Ocular Phantom for Wide Field Murine Eye Imaging [Communication écrite]. 2023 Bio-Optics : Design and Application (BODA 2023), Vancouver, BC, Canada. Lien externe
Brais-Brunet, S., Heckel, É., Kanniyappan, U., Chemtob, S., Boudoux, C., Joyal, J.-S., & Dehaes, M. (2021). Morphometric and Microstructural Changes During Murine Retinal Development Characterized Using In Vivo Optical Coherence Tomography. Investigative Ophthalmology & Visual Science, 62(13), 12 pages. Lien externe
Brais-Brunet, S., Kanniyappan, U., Hosseiny, H., Heckel, E., Joyal, J.-S., Boudoux, C., & Dehaes, M. (mai 2019). Development of Instrumentation and Methods to Image the Retina in Mouse Pup with in vivo Non-Invasive Optical Coherence Tomography [Communication écrite]. Photonics North (PN 2019), Québec, Qc, Canada. Lien externe
de Sivry-Houle, M. P., Beaudoin, S. B., Brais-Brunet, S., Dehaes, M., Godbout, N., & Boudoux, C. (2021). All-fiber few-mode optical coherence tomography using a modally-specific photonic lantern. Biomedical Optics Express, 12(9), 5704-5719. Disponible
Dehaes, M., Gagnon, L., Lesage, F., Pélégrini-Issac, M., Vignaud, A., Valabrègue, R., Grebe, R., Wallois, F., & Benali, H. (2011). Quantitative investigation of the effect of the extra-cerebral vasculature in diffuse optical imaging : a simulation study. Biomedical Optics Express, 2(3), 680-695. Lien externe
Desjardins, M., Gagnon, L., Gauthier, C., Hoge, R. D., Dehaes, M., Desjardins-Crépeau, L., Bherer, L., & Lesage, F. (janvier 2009). Application of a multicompartment dynamical model to multimodal optical imaging for investigating individual cerebrovascular properties [Communication écrite]. Multimodal Biomedical Imaging IV, San Jose, California, United States. Lien externe
Dehaes, M. (2008). Quantification en imagerie optique diffuse cérébrale : analyse du signal et étude du problème direct [Thèse de doctorat, École Polytechnique de Montréal]. Disponible
Dehaes, M., Lesage, F., & Comeau, R. M. (avril 2007). MRI/DOI neuronavigation: Revisiting the negative bold signal through diffuse optical imaging [Communication écrite]. IEEE International Symposium on Biomedical Imaging : From Nano to Macro, Arlington, VA, United States. Lien externe
Erdenedalai, K., Maltais-Tariant, R., Dehaes, M., & Boudoux, C. (2024). MCOCT: an experimentally and numerically validated, open-source Monte Carlo simulator for optical coherence tomography. Biomedical Optics Express, 15(2), 624-640. Lien externe
Erdenedalai, K., Maltais-Taraint, R., Dehaes, M., & Boudoux, C. (avril 2023). Experimentally Validated Monte Carlo Simulator for Fourier-Domain Optical Coherence Tomography [Communication écrite]. Bio-Optics : Design and Application (BODA 2023), Vancouver, BC, Canada. Lien externe
Lopez Rios, N., Pouliot, P., Papoutsis, K., Foias, A., Stikov, N., Lesage, F., Dehaes, M., & Cohen-Adad, J. (2018). Design and construction of an optimized transmit/receive hybrid birdcage resonator to improve full body images of medium-sized animals in 7T scanner. PLOS One, 13(2), e0192035 (14 pages). Disponible
Lopez Rios, N., Foias, A., Lodygensky, G., Dehaes, M., & Cohen-Adad, J. (2018). Size-adaptable 13-channel receive array for brain MRI in human neonates at 3T. NMR in Biomedicine, 31(8), 12 pages. Lien externe
Lopez Rios, N., Foias, A., Lodygensky, G. A., Stikov, N., Dehaes, M., & Cohen-Adad, J. (avril 2017). Size-adaptable 13-channel receive array for brain imaging in human neonates at 3T. [Affiche]. ISMRM 25th annual meeting & Exhibition, Honolulu, Hawai. Lien externe
Maltais-Tariant, R., Becerra-Deana, R. I., Brais-Brunet, S., Dehaes, M., & Boudoux, C. (2023). Speckle contrast reduction through the use of a modally-specific photonic lantern for optical coherence tomography. Biomedical Optics Express, 14(12), 6250-6259. Lien externe
Maltais-Tariant, R., Brais-Brunet, S., Dehaes, M., & Boudoux, C. (avril 2023). Speckle Contrast Reduction through the use of a Modally-Specific Photonic Lantern in Few-Modes Optical Coherence Tomography [Communication écrite]. Bio-Optics : Design and Application (BODA 2023), Vancouver, BC, Canada. Lien externe
Matteau-Pelletier, C., Dehaes, M., Lesage, F., & Lina, J.-M. (2009). 1/f noise in diffuse optical imaging and wavelet-based response estimation. IEEE Transactions on Medical Imaging, 28(3), 415-422. Lien externe
