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Lopera, D. O. G., Picot, F., Shams, R., Dallaire, F., Sheehy, G., Alley, S., Barkati, M., Delouya, G., Carrier, J.-F., Birlea, M., Trudel, D., Leblond, F., Menard, C., & Kadoury, S. (2022). Image-guided Raman spectroscopy navigation system to improve transperineal prostate cancer detection. Part 2: in-vivo tumor-targeting using a classification model combining spectral and MRI-radiomics features. Journal of Biomedical Optics, 27(9), 095004 (16 pages). Lien externe
Picot, F., Shams, R., Dallaire, F., Sheehy, G., Trang, T., Grajales, D., Birlea, M., Trudel, D., Menard, C., Kadoury, S., & Leblond, F. (2022). Image-guided Raman spectroscopy navigation system to improve transperineal prostate cancer detection. Part 1: Raman spectroscopy fiber-optics system and in situ tissue characterization. Journal of Biomedical Optics, 27(9), 095003 (14 pages). Lien externe
Ciobanu, C., Ember, K. J. I., Nyíri, B. J., Rajan, S., Chauhan, V., Leblond, F., & Murugkar, S. (2022). Potential of Raman Spectroscopy for Blood-Based Biopsy. IEEE Instrumentation & Measurement Magazine, 25(1), 62-68. Lien externe
David, S., Plante, A., Dallaire, F., Tremblay, J.-P., Sheehy, G., Macdonald, E., Forrest, L., Daneshmand, M., Trudel, D., Wilson, B. C., Hopkins, L., Murugkar, S., Vanderhyden, B., & Leblond, F. (2022). Multispectral label-free Raman spectroscopy can detect ovarian and endometrial cancer with high accuracy. Journal of Biophotonics, 15(2), 10 pages. Lien externe
Ember, K., Daoust, F., Mahfoud, M., Dallaire, F., Ahmad, E. Z., Tran, T., Plante, A., Diop, M.-K., Nguyen, T., St-Georges-Robillard, A., Ksantini, N., Lanthier, J., Filiatrault, A., Sheehy, G., Beaudoin, G., Quach, C., Trudel, D., & Leblond, F. (2022). Saliva-based detection of COVID-19 infection in a real-world setting using reagent-free Raman spectroscopy and machine learning. Journal of Biomedical Optics, 27(2), 025002 (24 pages). Disponible
Ksantini, N., Veilleux, I., De Denus-Baillargeon, M.-M., Orsini, P., Dicaire, I., Lecourt, J.-B., Gognau, A., Hernandez, Y., Baylon, A., Massabki, M., Lesage, F., & Leblond, F. (2022). Time-gated interferometric detection increases Raman scattering to fluorescence signal ratio in biological samples. Journal of Biophotonics, 15(1), 6 pages. Lien externe
Laurence, A., Toffa, D. H., Peng, K., Robert, M., Bouthillier, A., Nguyen, D. K., & Leblond, F. (2022). Multispectral intraoperative imaging for the detection of the hemodynamic response to interictal epileptiform discharges. Biomedical Optics Express, 13(12), 6245-6257. Lien externe
Lopera, D. O. G., Picot, F., Shams, R., Dallaire, F., Sheehy, G., Alley, S., Barkati, M., Delouya, G., Carrier, J.-F., Birlea, M., Trudel, D., Leblond, F., Menard, C., & Kadoury, S. (2022). Image-guided Raman spectroscopy navigation system to improve transperineal prostate cancer detection. Part 2: in-vivo tumor-targeting using a classification model combining spectral and MRI-radiomics features. Journal of Biomedical Optics, 27(9), 095004 (16 pages). Lien externe
Maubois, B., Ksantini, N., & Leblond, F. (avril 2022). Development of a time-domain tissue imaging Raman spectroscopy system increasing inelastic scattering signal-to-background ratio from early-photon time gating [Communication écrite]. Clinical and Translational Biophotonics 2022, Fort Lauderdale, FL, USA. Lien externe
Picot, F., Shams, R., Dallaire, F., Sheehy, G., Trang, T., Grajales, D., Birlea, M., Trudel, D., Menard, C., Kadoury, S., & Leblond, F. (2022). Image-guided Raman spectroscopy navigation system to improve transperineal prostate cancer detection. Part 1: Raman spectroscopy fiber-optics system and in situ tissue characterization. Journal of Biomedical Optics, 27(9), 095003 (14 pages). Lien externe