Biomechanics of Living Organs Series
Aim & scope
It is challenging to find all the biomechanical aspects related to human organs in a single resource. The Elsevier Biomechanics of Living Organs series provides an opportunity for students, researchers, clinicians, and engineers to study the main topics related to the biomechanics of a living organ of interest, in a single book written by scientific and clinical experts. This series is the first to synthesize - in each volume - the state of the art through complementary biomechanical studies carried out in a living organ of interest. Each volume will also provide a dedicated focus on the clinical applications addressed by the biomechanical models of the organ.
If you are interested in developing a new volume for the Elsevier series, Biomechanics of Living Organs, please contact the Series Editors, Professor Jacques Ohayon S’ouvre dans une nouvelle fenêtre, Professor Yohan Payan, S’ouvre dans une nouvelle fenêtre or the Publisher, Mara Conner S’ouvre dans une nouvelle fenêtre.
Key features
Each volume is published with full color images in print (hardcover), as an eBook, and on Science Direct S’ouvre dans une nouvelle fenêtre
Elsevier’s authoring platform, Elsa, gives you all the tools you need to write, edit, collaborate, and track progress in one easy-to-use online platform. Elsa helps you save time, stay organized, and improve the discoverability of your published content.
Elsevier’s dedicated and accomplished editors, project managers, and designers will work with you to produce a book with the high quality and accuracy our books are known for.
A dedicated Editorial Project Manager (EPM) will be your resource for any day-to-day questions during the development stage and will provide you with a high level of support.
Audience
Graduate students, researchers, professional engineers, as well as clinicians in the fields of biomedical engineering, biomechanical engineering, tissue engineering, mechanical device engineering, biology, pathology, applied mathematics and modeling.