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Author:   Yohan Payan (TIMC-CNRS laboratory, Biomechanics team, Univ. Grenoble Alpes, France) ,  Jacques Ohayon (Polytech Annecy/Chambéry, Univ. Savoie Mont-Blanc, and researcher at TIMC-CNRS laboratory, Biomechanics team, Univ. Grenoble-Alpes, France)
Publisher:   Elsevier Science Publishing Co Inc
Imprint:   Academic Press Inc
Weight:   1.450kg
ISBN:  

9780128040096

ISBN 10:   0128040092
Pages:   602
Publication Date:   16 June 2017
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Hardback
Publisher's Status:   Active
Availability:   Manufactured on demand  
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Table of Contents

Part 1: Constitutive laws for biological living tissues1. Hyperelasticity Modeling for Incompressible Passive Biological Tissues2. Current Hyperelastic Models for Contractile Tissues: Application to Cardiovascular Mechanics3. Visco-hyperelastic strain energy function4. Constitutive Formulations for Soft Tissue Growth and Remodeling5. Strain energy function for damaged tissues Part 2: Passive soft organs6. Brain – Biomechanical modeling of brain soft tissues for medical applications 7. Oesophagus – Modeling of esophageal structure and function in health and disease8. Aorta – Mechanical properties, histology, and biomechanical modeling 9. Arteries and Coronaries Arterial – Wall Stiffness and Atherogenesis in Human Coronaries10. Breast – Clinical applications of breast biomechanics11. Liver – Non linear Biomechanical model of the Liver 12. Abdomen – Mechanical modeling and clinical applications13. Small Intestine14. Bladder/prostate/rectum – Biomechanical Models of the Mobility of Pelvic Organs in the Context of Prostate Radiotherapy15. Uterus – Biomechanical modeling of uterus. Application to a childbirth simulation16. Skin – Skin mechanics Part 3: Active soft organs17. Skeletal muscle – Three-dimensional modeling of active muscle tissue: The why, the how, and the future18. Face – Computational modelling of the passive and active components of the face19. Tongue – Human tongue biomechanical modeling 20. Upper airways – FRANK: a Hybrid 3D Biomechanical Model of the Head and Neck21. Heart – Adaptive reorientation of myofiber orientation in a model of biventricular cardiac mechanics: the effect of triaxial active stress, passive shear stiffness, and activation sequence Part 4: Musculo-skeletal models22. Spine – Relative contribution of structure and materials in the biomechanical behavior of the human spine 23. Thigh – Modeling of the Thigh: a 3D deformable approach considering muscle interactions 24. Calf – Subject-specific computational prediction of the effects of elastic compression in the calf 25. Foot – Biomechanical modeling of the foot

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Yohan Payan is Director of Research at the French National Center for Scientific Research (CNRS). In 1997, he received an award from the University of Grenoble for his doctoral research on the biomechanics of speech production. In 2012, the French Biomechanics Society awarded him the Senior Prize for his research on the biomechanics for computer-assisted surgery. His main research interests concern the biomechanical modeling of soft tissues and their integration into medical devices used to assist surgeons for planning or to guide them during surgery. The corresponding applications concern plastic and maxillofacial surgery, breast cancer treatment, neurosurgery, orthopedics and pressure ulcer prevention, based on organs or musculoskeletal models. He was a Research Affiliate at the Massachusetts Institute of Technology (1999, Boston, USA) and visiting professor at University of Chile (2004, Santiago de Chile) and University of British Columbia (2010, Vancouver, Canada). Yohan Payan is the co-head of the Biomechanics TIMC research team (Univ. Grenoble Alpes) and the Associate Editor of the Clinical Biomechanics journal (Elsevier). Jacques Ohayon is Professor of Mechanics at the Engineering school Polytech, Univ. Savoie Mont-Blanc, France. From 1985 to 1988, he was visiting fellow at the Biomedical Engineering Branch of the National Institutes of Health (NIH), Bethesda MD, USA. He received the 1998 Junior Prize of the French Biomechanics Society (SB) for his research on the biomechanics of the left ventricle. His current research focuses on the biomechanics of atherosclerotic plaque and the development of new clinical tools for imaging the elasticity of vulnerable plaques. From 2006 to 2007, he was visiting professor at the National Institute of Biomedical Imaging and Bioengineering at the NIH, USA. Jacques Ohayon was the Chairman of the SB, which also awarded him the Senior Prize in 2016 for his work on the biomechanics of coronary plaque rupture. In 2020, he was a visiting professor at Texas A & M University and conducted his research in the field of endothelial cell mechanobiology at the Houston Methodist Research Institute (HMRI). Since 2020, he is also Adjunct Professor of Cardiovascular Sciences at HMRI, Texas, USA.

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