Sean P. Didion

Sean P. Didion

Department of Pharmacology and Toxicology, The University of Mississippi Medical Center

Affiliated withThe University of Mississippi Medical Center

Research Area

Biography

Dr. Sean P. Didion, Ph.D. is an Associate Professor in the Department of Pharmacology at The University of Mississippi Medical Center in Jackson, MS. Dr. Didion received his B.S. and M.A. degrees in Biological Sciences from Drake University and his Ph.D. degree in Cellular and Molecular Physiology from The University of Nebraska Medical Center. His postdoctoral training was conducted at the University of Iowa Carver College of Medicine. Dr. Didion's current research is focused on understanding mechanisms by oxidative stress and inflammatory molecules play in the impairment of vascular function in development of obesity and hypertension. He is an active member of the American Physiological Society, having served on the Membership Committee and Perkins Memorial Award Committees as well an active member of the Association of American Medical Colleges' GREAT Group, where he currently serves as a member of the Communications Committee. Dr. Didion has served on the Editorial Boards of several leading cardiovascular journals including, Atherosclerosis, Thrombosis, and Vascular Biology, Circulation Research, Hypertension, Journal of Hypertension, and the Journal of Cardiovascular Pharmacology. Dr. Didion is also the director of the MD-PhD Program at The University of Mississippi Medical Center.

JoVE Journal Publications

ArticleTotal : 1
Year
Estimation of Nephron Number in Whole Kidney using the Acid Maceration Method
Publication title

Cited by 18

2019

Other Publications

Article
Year
Heterozygous eNOS deficiency is associated with oxidative stress and endothelial dysfunction in diet-induced obesity.

Physiological reports| PubMed ID: 26660551

2015
2016
2017
Unraveling the Role and Complexities of Inflammation in Hypertension.

Hypertension (Dallas, Tex. : 1979)| PubMed ID: 28847888

2017
Cellular and Oxidative Mechanisms Associated with Interleukin-6 Signaling in the Vasculature.

International journal of molecular sciences| PubMed ID: 29186034

2017