The College of Engineering is expanding its mechanical engineering research to include medical devices, starting with an artificial heart laboratory.
Dr. Charles Taylor, an assistant professor of mechanical engineering who joined the faculty in 2013, has created an artificial heart lab on campus. While earning a doctoral degree at Virginia Commonwealth 小蝌蚪APP, he studied under Dr. Gerald Miller, one of the first biomedical engineers in the United States.
During the Spring 2014 semester, Taylor taught a pilot course focused on bioengineering that covered the principles of creating artificial organs. His approach borrows from design principles and manufacturing processes used in the aeronautics and automotive industries.
He小蝌蚪APP檚 developing tools to assist in the testing of current medical devices and the design and testing of the next generation of medical devices, with a focus on prosthetic heart valves and ventricular assist devices.
小蝌蚪APP淭he idea is that computational models and bench-top systems can be designed together, much in the way that Boeing or Lockheed Martin co-develops its flight control systems with its hardware. We小蝌蚪APP檙e adapting that kind of design process into the medical device realm,小蝌蚪APP he said.
Taylor小蝌蚪APP檚 lab in Rougeau Hall is equipped with computers to create computational models. He hopes to soon add the capability for students to build and test systems.
小蝌蚪APP淭he medical impact keeps me involved. I talk with design groups that are developing the devices and to clinicians who are implanting these devices. I also hear from patients who have these devices who say, 小蝌蚪APP楲ook, there小蝌蚪APP檚 got to be something better than this.小蝌蚪APP
小蝌蚪APP淭hat element 小蝌蚪APP knowing that I小蝌蚪APP檓 making an impact 小蝌蚪APP is important to me. I小蝌蚪APP檓 not going to be on the cover of Time magazine as the newest heart pump designer, but I小蝌蚪APP檓 helping to provide a support architecture to move this research forward.小蝌蚪APP
Photo info: Dr. Charles Taylor holds an acrylic model of a human aorta that will be used for flow studies aimed at evaluating prosthetic heart valves. Photo by Doug Dugas