Physiological Impact of Oxidative Stress on Endothelial Function in  Cardiovascular Disease: Focus on MDA, SOD, and Nitric Oxide Dynamics

Tayyeba Majeed, Misbah Majeed, Muhammad Irfan Akhtar, Sardar Ahmad, Ambreen Anjum, Pehlaj Rai

Physiological Impact of Oxidative Stress on Endothelial Function in Cardiovascular Disease: Focus on MDA, SOD, and Nitric Oxide Dynamics

Authors

Tayyeba Majeed, Misbah Majeed, Muhammad Irfan Akhtar, Sardar Ahmad, Ambreen Anjum, Pehlaj Rai

Keywords:

Malondialdehyde; superoxide dismutase; endothelial dysfunction.

Abstract

A novel experimental investigation elucidated the interplay between malondialdehyde (MDA),superoxide dismutase (SOD), and nitric oxide (NO) in endothelial dysfunction associated

References

Simantiris, S., Papastamos, C., Antonopoulos, A. S., Theofilis, P., Sagris, M., Bounta, M, and Tousoulis, D. (2023). Oxidative stress biomarkers in coronary artery disease. Current Topics in Medicinal Chemistry, 23(22), 2158- 2171,https://doi.org/10.2174/15680266236662 305 02140614.

An, Y., Xu, B. T., Wan, S. R., Ma, X. M., Long, Y., Xu, Y, and Jiang, Z. Z. (2023). The role of oxidative stress in diabetes mellitus-induced

vascular endothelial dysfunction. Cardiovascular diabetology, 22(1), 237,

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Published

2024-12-20

How to Cite

Tayyeba Majeed, Misbah Majeed, Muhammad Irfan Akhtar, Sardar Ahmad, Ambreen Anjum, Pehlaj Rai. (2024). Physiological Impact of Oxidative Stress on Endothelial Function in Cardiovascular Disease: Focus on MDA, SOD, and Nitric Oxide Dynamics. International Journal of Pharmacy Research & Technology (IJPRT), 14(2), 160–166. Retrieved from https://ijprt.org/index.php/pub/article/view/839