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Computational Biomechanics for Medicine: Imaging, Modeling and Computing Softcover reprint of the original 1st ed. 2016 [Paperback / softback]

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  • Format: Paperback / softback, 203 pages, height x width: 235x155 mm, weight: 3401 g, 85 Illustrations, color; 8 Illustrations, black and white; XV, 203 p. 93 illus., 85 illus. in color., 1 Paperback / softback
  • Pub. Date: 31-May-2018
  • Publisher: Springer International Publishing AG
  • ISBN-10: 3319803263
  • ISBN-13: 9783319803265
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Computational Biomechanics for Medicine: Imaging, Modeling and Computing Softcover reprint of the original 1st ed. 2016Larger Image
  • Format: Paperback / softback, 203 pages, height x width: 235x155 mm, weight: 3401 g, 85 Illustrations, color; 8 Illustrations, black and white; XV, 203 p. 93 illus., 85 illus. in color., 1 Paperback / softback
  • Pub. Date: 31-May-2018
  • Publisher: Springer International Publishing AG
  • ISBN-10: 3319803263
  • ISBN-13: 9783319803265
Other books in subject:
Permanent link: https://www.kriso.ee/db/9783319803265.html
The Computational Biomechanics for Medicine titles provide an opportunity for specialists in computational biomechanics to present their latest methodologies and advancements. This volume comprises eighteen of the newest approaches and applications of computational biomechanics, from researchers in Australia, New Zealand, USA, UK, Switzerland, Scotland, France and Russia. Some of the interesting topics discussed are: tailored computational models; traumatic brain injury; soft-tissue mechanics; medical image analysis; and clinically-relevant simulations.

One of the greatest challenges facing the computational engineering community is to extend the success of computational mechanics to fields outside traditional engineering, in particular to biology, the biomedical sciences, and medicine. We hope the research presented within this book series will contribute to overcoming this grand challenge.
Part I: Biomechanics of Solids.- Computer Assisted Planning of
Periacetabular Osteotomy with Biomechanical Optimization: Constant Thickness
Cartilage Models vs. Patient-specific Cartilage Models.- Role of Ligaments in
the Knee Joint Kinematic Behavior: Development and Validation of a Finite
Element model.- Challenges to Validate Multi-physics Model of Liver Tumor
Radiofrequency Ablation from Pre-clinical Data.- Robust Landmark
Identification for Generating Subject Specific Models for Biomechanics.-
Forward Problem of Time-Resolved Diffuse Optical Tomography Considering
Biological Tissue Deformation.- Mechanical Models of Endothelial
Mechanotransmission Based on a Population of Cells.- Investigation of
Modelling Parameters for Finite Element Analysis of MR Elastography.- Fuzzy
Tissue Classification for Non-linear Patient-Specific Biomechanical Models
for Whole-Body Image Registration.- GPU-Based Fast Finite Element Solution
for Nonlinear Anisotropic Material Behavior And Comparison of Integration
Strategies.- Fast Prediction of Femoral Biomechanics Using Supervised Machine
Learning and Statistical Shape Modeling.- Some Use Cases for Composite Finite
Elements in Image Based Computing.- Part II: Vascular System and the Brain.-
Computational Simulation of Blood Flow and Drug Transportation in a Large
Vasculature.- Fundus Image Based Blood Flow Simulation of the Retinal
Arteries.- Integration of an Electrophysiologically-Driven Heart Model into
Three-Dimensional Haemodynamics Simulation using the CRIMSON Control Systems
Framework.- Simulating Patient Specific Multiple Time-point MRIs from a
Biophysical Model of Brain Deformation in Alzheimer's Disease.- Traumatic
Brain Injury an Investigation into Shear Waves Interference Effects.-
Modeling of Bifurcated Tubular Structures for Vessel Segmentation.- Modelling
the Presence of Diffuse Axonal Injury in Primary Phase Blast-Induced
Traumatic Brain Injury.