The purpose of the book is to bring the two disciplines - vascular mechanics and pathology - together. In addition, the book bridges the gap in our knowledge and enhances engineering applications in medicine. This cutting-edge work presents the use of veins as arterial grafts and discusses the role of vein valves in graft stenosis. The book illustrates aneurysm formation, growth, and rupture, using pressure vessel principles. This new work details the investigation of, amongst other topics, aortic dissection, showing for the first time that the aortic root mechanics plays a vital role in the development of this pathology.

This book provides information on the aortic valve. Written in a comprehensive style, it emphasizes the principles behind the development of artificial valves. It covers the principles of valve geometry, tissue structure and function relationships, valve dynamics, fluid dynamics, mechanical stresses, echocardiographic images, mechanisms of valve sounds, valvular pathology, and design and performance of bioprosthetic valves. It enhances our understanding of angiographic and echocardiographic images and calcific stenosis, and will be of value in the development of better prostheses. The Aortic Valve is the ideal text for biomedical engineers and a unique resource for teaching interdisciplinary approaches to medical and engineering students. This work is also an indispensible source for cardiac surgeons, pathologists, cardiologists, and manufacturers of prosthetic valves.

The purpose of the book is to bring the two disciplines - vascular mechanics and pathology - together. In addition, the book bridges the gap in our knowledge and enhances engineering applications in medicine. This cutting-edge work presents the use of veins as arterial grafts and discusses the role of vein valves in graft stenosis. The book illustrates aneurysm formation, growth, and rupture, using pressure vessel principles. This new work details the investigation of, amongst other topics, aortic dissection, showing for the first time that the aortic root mechanics plays a vital role in the development of this pathology.