Half Title Page.
Constitutive Laws for Biological Living Tissues.
1: Hyperelasticity Modeling for Incompressible Passive Biological Tissues.
2: Hyperelastic Models for Contractile Tissues: Application to Cardiovascular Mechanics.
3: Viscohyperelastic Strain Energy Function.
4: Constitutive Formulations for Soft Tissue Growth and Remodeling.
5: Modeling of Damage in Soft Biological Tissues.
Passive Soft Organs.
6: Biomechanical Modeling of Brain Soft Tissues for Medical Applications.
9: Arterial Wall Stiffness and Atherogenesis in Human Coronaries.
10: Clinical Applications of Breast Biomechanics.
11: Nonlinear Biomechanical Model of the Liver.
12: Human Abdomen: Mechanical Modeling and Clinical Applications.
13: Constitutive Modeling of the Small Intestine.
14: Bladder/Prostate/Rectum: Biomechanical Models of the Mobility of Pelvic organs in the Context of Prostate Radiotherapy.
16: Skin Mechanics.
Active Soft Organs.
17: Three-Dimensional Modeling of Active Muscle Tissue: the Why, the How, and the Future.
18: Computational Modeling of the Passive and Active Components of he Face.
19: Human Tongue Biomechanical Modeling.
20: FRANK: A Hybrid 3D Biomechanical Model of the Head and Neck.
21: Adaptive Reorientation of Myofiber Orientation in a Model of Biventricular Cardiac Mechanics: The Effect of Triaxial Active Stress, Passive Shear Stiffness, and Activation Sequence.
23: Modeling of the Thigh: a 3D Deformable Approach Considering Muscle Interactions.
24: Subject-Specific Computational Prediction of the Effects Of Elastic Compression in the Calf.
25: Biomechanical Modeling of the Foot.