Imperial College London

ProfessorJamesMoore Jr

Faculty of EngineeringDepartment of Bioengineering

The Bagrit & RAEng Chair in Medical Device Design
 
 
 
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Contact

 

+44 (0)20 7594 9795james.moore.jr CV

 
 
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Location

 

414Royal School of MinesSouth Kensington Campus

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Summary

 

Overview (See also https://motuslympha.org.uk)

Dr. Moore was born in Toccoa, Georgia, and received his Bachelor of Mechanical Engineering in 1987, his Master of Science in Mechanical Engineering in 1988 and his Ph.D. in 1991, all from the Georgia Institute of Technology. He was the first PhD student of Dr. David N. Ku, MD PhD, and his thesis work was a collaborative project with vascular surgeon Dr. Christopher Zarins and vascular pathologist Dr. Seymour Glagov. He had postdoctoral training at the Swiss Institute of Technology at Lausanne, 1991 – 1994, where he also helped set up a new biomedical engineering lab. From 1994 - 2003 Dr. Moore served as a professor of Mechanical and Biomedical Engineering, Florida International University. He moved to Texas A&M University in 2003, where he served as the Carolyn S. and Tommie E. Lohman ’59 Professor of Biomedical Engineering and Director of Graduate Studies. In Jaunary 2013, he joined Imperial College as the Bagrit and Royal Academy of Engineering Chair in Medical Device Design, and Director of Research for the Department of Bioengineering.

 

Dr. Moore’s research interests include Cardiovascular Biomechanics, Stents, Implantable Devices, Atherosclerosis, and the Lymphatic System. His research focuses on the role of biomechanics in the formation and treatment of diseases such as atherosclerosis and cancer. His cardiovascular biomechanics research includes the first finite element models of artery walls to include residual stress, the first studies of the effects of combined flow and stretch on vascular endothelium, early work on the effects of myocardial contraction on coronary artery flow patterns, and the first studies of the effects of stents on both blood flow patterns and artery wall stress. This work resulted in the development of two novel stent designs aimed at optimizing post-implant biomechanics for the prevention of restenosis, as well as new testing devices for implants that employ more physiologic mechanical forces (currently marketed by Bose). His work on the effects of stretch gradients on cells was awarded best paper of the year in the Journal of Biomechanical Engineering for 2011. In collaboration with Dr. Kumbakonam Rajagopal, he developed constitutive models of strain-accelerated degradation of polymers used in medical implants. His research on lymphatic system biomechanics, initiated in 2004 with Dr. David Zawieja, has provided unprecedented insight into the pumping characteristics of the system and the transport of nitric oxide, antigens, and chemokines in lymphatic tissues. He is currently developing two technologies for preventing and resolving secondary lymphedema, which typically forms subsequent to cancer surgery. Along with his funding from government, charity, and industry sources, Dr. Moore has received multiple patents for medical devices and testing equipment.  Dr. Moore has also co-founded two startup companies.