1/19/2024 0 Comments Dr. barney clarkHe retired as president of the Utah Artificial Heart Institute at the age of 82.Īt the Division of Artificial Organs and the Institute for Biomedical Engineering, Dr. He also was president of medical devices company, SynCardia, as well as vice president of research and development for Micromed Technology, Inc., in Texas. He was director of both the U’s Center for Artificial Hearts and Medical Devices and the Institute for Biomedical Engineering. His legacy will long live within the walls of this university and inspires future generations of researchers in heart failure and heart pumps.” He was a professor of surgery at the University of Utah as well as a research professor in the then bioengineering (now biomedical engineering) and pharmaceutics departments. Olsen represents one of Utah’s true medical innovators. “His contributions to science were massive and provided the foundation for artificial organs. Olsen was a great man who was crucial to the development of mechanical circulatory support – not just the total artificial heart,” said Craig Selzman, chief of the Division of Cardiothoracic Surgery and surgical director of the Cardiac Mechanical Support and Heart Transplant program at the University of Utah. Olsen, who was Professor Emeritus in the U’s departments of biomedical engineering and surgery as well as president of the Utah Artificial Heart Institute, was a veterinarian who implanted early prototypes of the Jarvik-7 artificial heart into animals – mostly calves and sheep – and was instrumental in developing the final design of the device that was implanted into patient Barney Clark in 1982. Lyman embarked on a 20-year stint at the University of Utah. Reemtsma and the renowned hematologist Dr. Kolff but equally by the atmosphere of excellence and cutting edge research that permeated the University under the leadership of President James Fletcher (who later headed NASA) and others such as Dr. Attracted not only by the opportunity to work with Dr. Lyman in early 1969 to join the University of Utah, offering him research and teaching appointments in both the College of Medicine and the College of Engineering. He began and was director of Utah’s Biomedical Engineering Center for Polymer Implants, with r esearch focused on new polymer developments for medical applications, innovating polymer membranes, vascular implants, nerve implants, ostomy implants and sutures. Lyman was well-known for innovative biomedical polymer science and analytical characterization, blood-contacting materials, and protein interfacial science.
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