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Join us in this episode as we explore the evolving field of cardiovascular medicine with Michael S. Sacks, Professor and Director of the James T. Willerson Center for Cardiovascular Modeling and Simulation at the University of Texas at Austin. As a leading expert in cardiovascular modeling, Professor Sacks focuses on developing patient-specific, simulation-based technologies that improve our understanding of heart and heart valve disease. What's his goal? To advance treatment strategies by helping physicians better predict outcomes and design therapies tailored to individual patients…
Click play to learn about:
The two major problems with valve therapy.
How computational modeling is transforming the diagnosis and treatment of heart disease.
Why patient-specific simulations may improve surgical planning and clinical outcomes.
The limitations of current valve replacement technologies.
Professor Sacks has held numerous leadership roles throughout his distinguished career, including serving as Technical Editor of the Journal of Biomechanical Engineering. He is an inaugural Fellow of the Biomedical Engineering Society, a Fellow of the American Society of Mechanical Engineers, and a Fellow of the American Institute for Medical and Biological Engineering. His honors include the Van C. Mow Medal from the ASME Bioengineering Division, the University of Pittsburgh Chancellor's Distinguished Research Award, the Richard Skalak Distinguished Lectureship from Columbia University, and the SKT Lectureship from the City College of New York. In 2006, he was recognized as one of Scientific American's 50 Leaders in Science and Technology.
Connect with Professor Sacks:
University of Texas Profile
Google Scholar Profile
Willerson Center for Cardiovascular Modeling and Simulation
Oden Institute for Computational Engineering & Sciences
🎧 Listen now on Apple Podcasts: http://apple.co/30PvU9C *]:pointer-events-auto R6Vx5W_threadScrollVars scroll-mb-[calc(var(--scroll-root-safe-area-inset-bottom,0px)+var(--thread-response-height))] scroll-mt-[calc(var(--header-height)+min(200px,max(70px,20svh)))]" dir="auto" data-turn-id= "request-69f3244a-b680-83a9-99ae-23ca6cf8d874-0" data-turn-id-container= "request-69f3244a-b680-83a9-99ae-23ca6cf8d874-0" data-testid= "conversation-turn-34" data-scroll-anchor="false" data-turn= "assistant">🛍️ Recommended Books from this Episode
📖 The Cardiovascular System at a Glance – A concise, visual guide to the structure, function, and disorders of the cardiovascular system, ideal for students and healthcare professionals. 👉 Get it here
📘 Sampling and Analysis of Environmental Chemical Pollutants: A Complete Guide – A thorough reference on methods for detecting, analyzing, and understanding chemical pollutants in the environment. 👉 Check it out
📙 Pathophysiology of Heart Disease: An Introduction to Cardiovascular Medicine – A detailed introduction to cardiovascular diseases, their mechanisms, and clinical implications for medical practice. 👉 Explore it here
📕 Cardiovascular Physiology Concepts (Lippincott Connect) – A comprehensive text covering the key principles of cardiovascular physiology, integrating concepts with clinical relevance. 👉 Discover it here
Note: These are affiliate links. If you make a purchase through them, we may earn a small commission at no extra cost to you. It helps support the podcast. Thank you!
By Richard Jacobs4.2
494494 ratings
Join us in this episode as we explore the evolving field of cardiovascular medicine with Michael S. Sacks, Professor and Director of the James T. Willerson Center for Cardiovascular Modeling and Simulation at the University of Texas at Austin. As a leading expert in cardiovascular modeling, Professor Sacks focuses on developing patient-specific, simulation-based technologies that improve our understanding of heart and heart valve disease. What's his goal? To advance treatment strategies by helping physicians better predict outcomes and design therapies tailored to individual patients…
Click play to learn about:
The two major problems with valve therapy.
How computational modeling is transforming the diagnosis and treatment of heart disease.
Why patient-specific simulations may improve surgical planning and clinical outcomes.
The limitations of current valve replacement technologies.
Professor Sacks has held numerous leadership roles throughout his distinguished career, including serving as Technical Editor of the Journal of Biomechanical Engineering. He is an inaugural Fellow of the Biomedical Engineering Society, a Fellow of the American Society of Mechanical Engineers, and a Fellow of the American Institute for Medical and Biological Engineering. His honors include the Van C. Mow Medal from the ASME Bioengineering Division, the University of Pittsburgh Chancellor's Distinguished Research Award, the Richard Skalak Distinguished Lectureship from Columbia University, and the SKT Lectureship from the City College of New York. In 2006, he was recognized as one of Scientific American's 50 Leaders in Science and Technology.
Connect with Professor Sacks:
University of Texas Profile
Google Scholar Profile
Willerson Center for Cardiovascular Modeling and Simulation
Oden Institute for Computational Engineering & Sciences
🎧 Listen now on Apple Podcasts: http://apple.co/30PvU9C *]:pointer-events-auto R6Vx5W_threadScrollVars scroll-mb-[calc(var(--scroll-root-safe-area-inset-bottom,0px)+var(--thread-response-height))] scroll-mt-[calc(var(--header-height)+min(200px,max(70px,20svh)))]" dir="auto" data-turn-id= "request-69f3244a-b680-83a9-99ae-23ca6cf8d874-0" data-turn-id-container= "request-69f3244a-b680-83a9-99ae-23ca6cf8d874-0" data-testid= "conversation-turn-34" data-scroll-anchor="false" data-turn= "assistant">🛍️ Recommended Books from this Episode
📖 The Cardiovascular System at a Glance – A concise, visual guide to the structure, function, and disorders of the cardiovascular system, ideal for students and healthcare professionals. 👉 Get it here
📘 Sampling and Analysis of Environmental Chemical Pollutants: A Complete Guide – A thorough reference on methods for detecting, analyzing, and understanding chemical pollutants in the environment. 👉 Check it out
📙 Pathophysiology of Heart Disease: An Introduction to Cardiovascular Medicine – A detailed introduction to cardiovascular diseases, their mechanisms, and clinical implications for medical practice. 👉 Explore it here
📕 Cardiovascular Physiology Concepts (Lippincott Connect) – A comprehensive text covering the key principles of cardiovascular physiology, integrating concepts with clinical relevance. 👉 Discover it here
Note: These are affiliate links. If you make a purchase through them, we may earn a small commission at no extra cost to you. It helps support the podcast. Thank you!
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