Gut Microbiome and Cardiovascular Health:
Exploring the Connections
With Dr. Soheil Saeedi, Pharm.D, Ph.D, FESC
Wednesday, July 31, 1:00 PM ET
Discover how the gut microbiome directly influences heart health, disease risk, and aging with cardiovascular expert Dr. Soheil Saeedi, Pharm.D, Ph.D, FESC.
Get Free Access By Registering Below!
In this webinar, you'll learn how to:
- Draw Key Connections: Understand the gut microbiome's role in heart health, including how key microbial species influence cardiovascular function.
- Predict Microbiome Changes: Learn how the gut microbiome alters with age and the impact of gut bacteria on cardiovascular aging.
- Implement Critical Interventions: Dissect the relationship between diet, gut microbiota, and heart health and discover dietary interventions to promote a healthy microbiome and prevent cardiovascular diseases.
- Uncover Hidden Mechanisms:
See how microbial metabolites contribute to cardiovascular health. - Optimize Your Approach: Explore emerging heart health therapies and interventions that target the gut microbiome and apply them to your practice.
Meet The Speaker
Dr. Soheil Saeedi | Pharm.D, Ph.D, FESC
Dr. Soheil Saeedi, Pharm.D., Ph.D., FESC, is a pharmacologist/scientist specializing in cardiovascular aging. He leads the Cardiovascular Aging Lab at the University of Zurich's Center for Translational and Experimental Cardiology.
Previously, he was with the Cardiovascular Division at Harvard Medical School. Dr. Saeedi has received numerous academic honors, including awards from the American Heart Association and the International Society of Thrombosis and Hemostasis. His research focuses on gut microbial metabolites and their impact on cardiovascular aging, aiming to enable personalized medicine for aging populations. He also received a Postdoctoral Fellowship at Harvard Medical School in 2017.
The Saeedi Lab investigates gut microbial metabolites and their regulation of redox signaling in orchestrating senescence in vascular endothelial cells and perivascular adipose tissue and subsequent cardiovascular aging.