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Documents dont l'auteur est "Thorin-Trescases, Nathalie"

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Nombre de documents: 6

B

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

D

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

L

Labbé, P., Munoz Goyette, V., Thorin-Trescases, N., Villeneuve, L., Desanlis, I., Delwarde, C., Shi, Y.-F., Martel, C., Yu, C., Alikashani, A., Mamarbachi, M., Lesage, F., Mathieu, S., Tardif, J.-C., Mathieu, P., Kmita, M., & Thorin, É. (2022). Angiopoietin-like 2 is essential to aortic valve development in mice. Communications Biology, 5(1), 18 pages. Lien externe

P

Pinçon, A., De Montgolfier, O., Akkoyunlu, N., Daneault, C., Pouliot, P., Villeneuve, L., Lesage, F., Levy, B. I., Thorin-Trescases, N., Thorin, É., & Ruiz, M. (2019). Non-alcoholic fatty liver disease, and the underlying altered fatty acid metabolism, reveals brain hypoperfusion and contributes to the cognitive decline in APP/PS1 mice. Metabolites, 9(5), 20 pages. Disponible

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