دانلود کتاب Computational Biomechanics for Medicine: Solid and Fluid Mechanics Informing Therapy

فهرست مطالب :

Preface Contents Keynote Abstract Computational Biomechanics Frameworks and Models for Computer-Assisted Therapy and Understanding of Disease Mechanisms Automatic Framework for Patient-Specific Biomechanical Computations of Organ Deformation 1 Introduction 2 Proposed Framework 2.1 Image Pre-processing 2.2 Model Construction 2.3 Model Solution 3 Craniotomy-Induced Brain Shift Case Study 4 Discussion and Conclusion References Computer Simulation of the Resection Induced Brain Shift; Preliminary Results 1 Introduction 2 Methods 2.1 Biomechanical Modelling Strategy 2.2 Construction of the Finite Element Mesh 2.3 Materials Properties 2.4 Boundary Conditions 2.5 Loading 2.6 Computer Simulation 2.7 Image Warping 3 Results 4 Discussion and Conclusions References Mandibular Teeth Movement Variations in Tipping Scenario: A Finite Element Study on Several Patients 1 Introduction 2 Related Work 3 Setting up the Finite Element Model 4 Experiments and Results 5 Summary and Conclusion References Computational Biomechanics Model for Analysis of Cervical Spinal Cord Deformations Under Whiplash-Type Loading 1 Introduction 2 Methods 2.1 Cervical Spine and Spinal Cord Models 2.2 Demonstration of the Model Application to Evaluation of Spinal Cord Injury Risk: Modelling of Whiplash-Type Experiments 3 Results 3.1 Calibration of Material Properties 3.2 Demonstration of the Model Application to Evaluation of Spinal Cord Injury Risk: Modelling of Whiplash-Type Experiments 4 Discussion References Biomechanical Tissue Characterisation, Determining Organ Geometry, and Organ Deformation Measurements An Unsupervised Learning Based Deformable Registration Network for 4D-CT Images 1 Introduction 2 Methods 2.1 Training Loss 2.2 Training Dataset 2.3 Network Framework 3 Experiments and Results 3.1 Registration 3.2 Interpolation 3.3 Motion Tracking 4 Conclusion References 3D Reconstruction of Patient-Specific Carotid Artery Geometry Using Clinical Ultrasound Imaging 1 Introduction 2 Materials and Methods 2.1 Clinical Data 2.2 Extraction of Vessel Lumen from US Images Using Deep Learning 2.3 3D Reconstruction of the Carotid Artery 3 Results 3.1 Image Segmentation Results for the Lumen 3.2 Blood Flow Through the 3D Reconstructed Carotid Artery 4 Discussion and Conclusion References Evaluation of the Agreement Between Ultrasound-Based and Bi-Planar X-Ray Radiography-Based Assessment of the Geometrical Features of the Ischial Tuberosity in the Context of the Prevention of Seating-Related Pressure Injury 1 Introduction 2 Methods 2.1 Participants and Protocol 2.2 Data Analysis 3 Results 3.1 Assessment of Morphological Parameter 3.2 Impact of Pelvis Angular Position on the Computed Radii of Curvature 4 Discussion References Characterising the Soft Tissue Mechanical Properties of the Lower Limb of a Below-Knee Amputee: A Review 1 Introduction 2 Anatomy and Biomechanical Measurements of the Stump of Below-Knee Amputees 2.1 Characterisation of the Reference Geometry and Deformations 2.2 Techniques and Sensors for Measuring the Loads Acting on the Stump 3 Identifying the Mechanical Properties of the Tissues of the Lower Limb 4 Conclusion References 3D Brain Deformation in Cadaveric Specimens Compared to Healthy Volunteers Under Non-injurious Loading Conditions 1 Introduction 2 Methods 3 Results 4 Discussion 5 Conclusions References Index