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Réseau de collaborationCe graphique trace les liens entre tous les collaborateurs des publications de {} figurant sur cette page.
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Bolduc, V., Baraghis, E., Duquette, N., Thorin-Trescases, N., Lambert, J., Lesage, F., & Thorin, E. (2012). Catechin Prevents Severe Dyslipidemia-Associated Changes in Wall Biomechanics of Cerebral Arteries in Ldlr-/-:Hapob(+/+) Mice and Improves Cerebral Blood Flow. American Journal of Physiology-Heart and Circulatory Physiology, 302(6), H1330-H1339. Lien externe
Baraghis, E., Bolduc, V., Gillis, M.-A., Srinivasan, V. J., Thorin, E., Boudoux, C., & Lesage, F. (janvier 2011). Synthetic reconstruction of dynamic blood flow in cortical arteries using optical coherence tomography for the evaluation of vessel compliance [Communication écrite]. Photonic Therapeutics and Diagnostics VII, San Francisco, CA, United states. Lien externe
de Montgolfier, O., Pinçon, A., Pouliot, P., Gillis, M.-A., Bishop, J., Sled, J. G., Villeneuve, L., Ferland, G., Levy, B. I., Lesage, F., Thorin-Trescases, N., & Thorin, E. (2019). High systolic blood pressure induces cerebral microvascular endothelial dysfunction, neurovascular unit damage, and cognitive decline in mice. Hypertension, 73(1), 217-228. Lien externe
de Montgolfier, O., Pouliot, P., Gillis, M.-A., Ferland, G., Lesage, F., Thorin-Trescases, N., & Thorin, E. (2019). Systolic hypertension-induced neurovascular unit disruption magnifies vascular cognitive impairment in middle-age atherosclerotic LDLr-/-:hApoB(+/+) mice. Geroscience, 41(5), 511-532. Lien externe
Drouin, A., Bolduc, V., Thorin-Trescases, N., Bélanger, É., Fernandes, P., Baraghis, E., Lesage, F., Gillis, M.-A., Villeneuve, L., Hamel, E., Ferland, G., & Thorin, E. (2011). Catechin treatment improves cerebrovascular flow-mediated dilation and learning abilities in atherosclerotic mice. American Journal of Physiology : Heart and Circulatory Physiology, 300(3), H1032-H1043. Lien externe
Lu, X., Moeini, M., Li, B., Thorin, E., & Lesage, F. (2020). Hypertension accelerates cerebral tissue PO₂ disruption in Alzheimer's disease. Neuroscience Letters, 715, 134626 (7 pages). Lien externe
Lu, X., Moeini, M., Li, B., de Montgolfier, O., Lu, Y., Belanger, S., Thorin, E., & Lesage, F. (2020). Voluntary exercise increases brain tissue oxygenation and spatially homogenizes oxygen delivery in a mouse model of Alzheimer's disease. Neurobiology of Aging, 88, 11-23. Lien externe
Lu, Y., Zhang, C., Lu, X., Moeini, M., Thorin, E., & Lesage, F. (2019). Impact of atherosclerotic disease on cerebral microvasculature and tissue oxygenation in awake LDLR-/-hApoB+/+ transgenic mice. Neurophotonics, 6(4), 045003 (10 pages). Disponible
Li, B., Lu, X., Moeini, M., Sakadzic, S., Thorin, E., & Lesage, F. (2019). Atherosclerosis is associated with a decrease in cerebral microvascular blood flow and tissue oxygenation. PLOS One, 14(8), e0221547 (13 pages). Disponible
Lu, X., Moeini, M., Li, B., Lu, Y., Damseh, R., Pouliot, P., Thorin, E., & Lesage, F. (2019). A Pilot Study Investigating Changes in Capillary Hemodynamics and Its Modulation by Exercise in the APP-PS1 Alzheimer Mouse Model. Frontiers in Neuroscience, 13, 1261 (12 pages). Lien externe
Pouliot, P., Gagnon, L., Lam, T., Avti, P. K., Bowen, C., Desjardins, M., Kakkar, A. K., Thorin, E., Sakadzic, S., Boas, D. A., & Lesage, F. (2017). Magnetic resonance fingerprinting based on realistic vasculature in mice. NeuroImage, 149, 436-445. Lien externe
Raignault, A., Bolduc, V., Lesage, F., & Thorin, E. (2017). Pulse pressure-dependent cerebrovascular eNOS regulation in mice. Journal of Cerebral Blood Flow & Metabolism, 37(2), 413-424. Lien externe
Raignault, A., Bolduc, V., Lesage, F., & Thorin, E. (2015). Pulse Pressure Reveals Shear Stress-Dependent eNOS Activity in Mice Cerebral Arteries. Faseb Journal, 29(1S), 2 pages. Lien externe
Thorin, E., Bolduc, V., Cole, W., Lesage, F., & Raignault, A. (septembre 2014). Pulse pressure increases shear stress sensitivity of isolated mouse cerebral arteries [Résumé]. 11th International Symposium on Resistance Arteries: From Molecular Machinery to Clinical Challenges, Banff, Alberta. Publié dans Journal of Vascular Research, 51(S2). Lien externe
