Computational Biomechanics for Medicine

Chapter 1 Computer Assisted Planning of Periacetabular Osteotomy with Biomechanical Optimization: Constant Thickness Cartilage Models vs. Patient-Specific Cartilage Models

Chapter 2 Role of Ligaments in the Knee Joint Kinematic Behavior: Development and Validation of a Finite Element Model

Chapter 3 Challenges to Validate Multi-Physics Model of Liver Tumor Radiofrequency Ablation from Pre-clinical Data

Chapter 4 Robust Landmark Identification for Generating Subject Specific Models for Biomechanics

Chapter 5 Forward Problem of Time-Resolved Diffuse Optical Tomography Considering Biological Tissue Deformation

Chapter 7 Investigation of Modelling Parameters for Finite Element Analysis of MR Elastography

Chapter 8 Fuzzy Tissue Classification for Non-Linear Patient-Specific Biomechanical Models for Whole-Body Image Registration

Chapter 9 GPU-Based Fast Finite Element Solution for Nonlinear Anisotropic Material Behavior and Comparison of Integration Strategies

Chapter 10 Fast Prediction of Femoral Biomechanics Using Supervised Machine Learning and Statistical Shape Modeling

Chapter 11 Some Use Cases for Composite Finite Elements in Image Based Computing

Chapter 12 Computational Simulation of Blood Flow and Drug Transportation in a Large Vasculature

Chapter 13 Fundus Image Based Blood Flow Simulation of the Retinal Arteries

Chapter 14 Integration of an Electrophysiologically Driven Heart Model into Three-Dimensional Haemodynamics Simulation Using the CRIMSON Control Systems Framework

Chapter 15 Simulating Patient Specific Multiple Time-Point MRIs from a Biophysical Model of Brain Deformation in Alzheimer’s Disease

Chapter 16 Traumatic Brain Injury: An Investigation into Shear Waves Interference Effects

Chapter 17 Modeling of Bifurcated Tubular Structures for Vessel Segmentation

Chapter 18 Modelling the Presence of Diffuse Axonal Injury in Primary Phase Blast-Induced Traumatic Brain Injury