Bagi, Z., Feher, A., Cassuto, J., Akula, K., Labinskyy, N., Kaley, G., & Koller, A. (2011). Increased availability of angiotensin AT(1) receptors leads to sustained arterial constriction to angiotensin II in diabetes – role for Rho-kinase activation. Blackwell Science Inc.

Bagi, Zsolt, Attila Feher, James Cassuto, Komala Akula, Nazar Labinskyy, Gabor Kaley, and Akos Koller. Increased Availability of Angiotensin AT(1) Receptors Leads to Sustained Arterial Constriction to Angiotensin II in Diabetes – Role for Rho-kinase Activation. Blackwell Science Inc, 2011.

Bagi, Zsolt, et al. Increased Availability of Angiotensin AT(1) Receptors Leads to Sustained Arterial Constriction to Angiotensin II in Diabetes – Role for Rho-kinase Activation. Blackwell Science Inc, 2011.