Computational Modelling of Tissue Surgery
2nd Edition
Published on 28. July 2005
Book
Hardback
288 pages
978-1-85312-749-6 (ISBN)
Description
In recent decades, the evolution of computational modeling has been primarily determined by the increasing power and speed of data transfer, visualization and other technological tools. This positive impact has inspired a new approach to study the human body and its structures. Written by respected researchers from a range of disciplines, this book provides valuable information on different methods of modeling, simulation and analysis of hard and soft tissues. These techniques aim to develop tools that can offer a meaningful input to the medical practice. The applications of computational modeling in biomechanics are vast, with many different trends having been developed worldwide. This book reviews the latest research on a selection of key issues.
More details
Series
Edition
2nd Revised edition
Language
English
Place of publication
Southampton
United Kingdom
Target group
Professional and scholarly
Edition type
Revised edition
Illustrations
Illustrations
Dimensions
Height: 230 mm
Width: 155 mm
ISBN-13
978-1-85312-749-6 (9781853127496)
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Schweitzer Classification
Content
Chapter 1: Mechanobiology of bone regeneration and bone adaptation to achieve stable long-term fixation of endosseous implants Introduction; Bone regeneration; Bone adaptation; Conclusion Chapter 2: Computational simulation of trabecular surface remodeling using voxel finite element method Introduction; Method of voxel finite element simulation for trabecular surface remodeling; Functional adaptation of cancellous bone in proximal femur predicted by trabecular surface remodeling simulation; Trabecular surface remodeling simulation for cancellous bone using microstructural voxel finite element models Chapter 3: Patient specific bone and joints modeling and tissue characterization derived from medical images Introduction; Methods; Applications; Discussion; Conclusions and perspectives Chapter 4: A coupled mechanical-biological computational approach to simulate antiresorbtive-drugs effects on osteoporosis Introduction; Bone histomorphometrical values; Biphosphonates: Alendronate; Proposed model; Results; Conclusion Chapter 5: A computational model to analyze the bone behaviour after a Total Hip Arthroplasty Introduction; Bone remodeling model; Bone remodeling around implants; The ingrowth control; Numerical implementation; Results; Discussion Chapter 6: Numerical simulations can influence and undermine the reliability of results in THR Introduction; Influence of finite element and mesh density; Physiological loading and relevance of muscle simulation; Constrained versus unconstrained femoral head; Physiological loading of the implanted femur; Concluding remarks Chapter 7: Structural analysis for pre-surgery planning: two applications in dentristry and urology Introduction; Dental biomechanics; Pelvic floor biomechanics; Conclusions Chapter 8: A numerical evaluation of the posterior cruciate ligament reconstruction on the biomechanics of the knee joint Introduction; Previous works on PCL; Numerical model of the knee joint; Results; Discussion Chapter 9: Tissue modeling and visualization using virtual reality Introduction; 3D data visualization; Medical image segmentation; Scene navigation; A simple prototype of virtual reality workbench Chapter 10: Biomechanics and the cyber-infrastructure: delivering the bone and other models to the surgeon Introduction; Bone remodeling algorithms; Using FE to create a virtual muscle; An overview of the CI; An implementation of a CI for biomechanics; A call to action