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Computational Biomechanics for Medicine: Models, Algorithms and Implementation 2013 ed. [Kõva köide]

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  • Formaat: Hardback, 211 pages, kõrgus x laius: 235x155 mm, kaal: 4616 g, 68 Illustrations, color; 36 Illustrations, black and white; IX, 211 p. 104 illus., 68 illus. in color., 1 Hardback
  • Ilmumisaeg: 30-Apr-2013
  • Kirjastus: Springer-Verlag New York Inc.
  • ISBN-10: 1461463505
  • ISBN-13: 9781461463504
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Computational Biomechanics for Medicine: Models, Algorithms and Implementation 2013 ed.Suurem pilt
  • Formaat: Hardback, 211 pages, kõrgus x laius: 235x155 mm, kaal: 4616 g, 68 Illustrations, color; 36 Illustrations, black and white; IX, 211 p. 104 illus., 68 illus. in color., 1 Hardback
  • Ilmumisaeg: 30-Apr-2013
  • Kirjastus: Springer-Verlag New York Inc.
  • ISBN-10: 1461463505
  • ISBN-13: 9781461463504
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9781461463504.html
Märksõnad:

One of the greatest challenges for mechanical engineers is to extend the success of computational mechanics to fields outside traditional engineering, in particular to biology, biomedical sciences, and medicine. This book is an opportunity for computational biomechanics specialists to present and exchange opinions on the opportunities of applying their techniques to computer-integrated medicine.

Computational Biomechanics for Medicine: Models, Algorithms and Implementation collects the papers from the Seventh Computational Biomechanics for Medicine Workshop held in Nice in conjunction with the Medical Image Computing and Computer Assisted Intervention conference. The topics covered include: medical image analysis, image-guided surgery, surgical simulation, surgical intervention planning, disease prognosis and diagnostics, injury mechanism analysis, implant and prostheses design, and medical robotics.

Part I Invited Lectures
Cutting in Real Time in Corotational Elasticity and Perspectives on Simulating Cuts
3(4)
Hadrien Courtecuisse
Pierre Kerfriden
Stephane P.A. Bordas
Why Most of the Intra-Operative Medical Robotic Devices Do Not Use Biomechanical Models? Some Clues to Explain the Bottlenecks and the Needed Research Breakthroughs
7(6)
Yohan Payan
Part II Computational Biomechanics of Soft Organs and Flow
Numeric Simulation of Fluid-Structure Interaction in the Aortic Arch
13(12)
Suzie Brown
Jing Wang
Harvey Ho
Stephen Tullis
Patient-Specific Computational Models: Tools for Improving the Efficiency of Medical Compression Stockings
25(14)
L. Dubuis
C.P.-Y. Rohan
S. Avril
P. Badel
J. Debayle
Intraoperative Damage Monitoring of Endoclamp Balloon Expansion Using Real-Time Finite Element Modeling
39(10)
Nele Famaey
Vukasin Strbac
Jos Vander Sloten
3D Algorithm for Simulation of Soft Tissue Cutting
49(14)
Xia Jin
Grand Roman Joldes
Karol Miller
Adam Wittek
Simulation of Congenital Heart Defect Corrective Surgeries Using Thin Shell Elements
63(12)
Stefan Kislinskiy
Tomas Golembiovsky
Christian Duriez
Eugenie Riesenkampff
Titus Kuehne
Hans-Peter Meinzer
Tobias Heimann
Efficient Suturing of Deformable Models
75(12)
Georges Younes
Julien abi-Nahed
George Turkiyyah
Part III Computational Biomechanics for Image-Guided Surgery
Objective Evaluation of Accuracy of Intra-Operative Neuroimage Registration
87(14)
Revanth Reddy Garlapati
Grand Roman Joldes
Adam Wittek
Jonathan Lam
Neil Weisenfeld
Arne Hans
Simon K. Warfield
Ron Kikinis
Karol Miller
Registration of Brain Tumor Images Using Hyper-Elastic Regularization
101(14)
Andac Hamamci
Gozde Unal
Heterogeneous Biomechanical Model on Correcting Brain Deformation Induced by Tumor Resection
115(12)
Yixun Liu
Nikos Chrisochoides
Intra-operative Update of Neuro-images: Comparison of Performance of Image Warping Using Patient-Specific Biomechanical Model and BSpline Image Registration
127(18)
Ahmed Mostayed
Revanth Reddy Garlapati
Grand Roman Joldes
Adam Wittek
Ron Kikinis
Simon K. Warfield
Karol Miller
Part IV Musculoskeletal System, Muscles and Injury Biomechanics
Trabecular Bone Poroelasticity for MicroCT-Based FE Models
145(12)
Clara Sandino
Steven K. Boyd
Using Multibody Dynamics to Design Total Knee Replacement Implants
157(12)
John L. Williams
Said T. Gomaa
Using Tagged MRI to Quantify the 3D Deformation of a Cadaver Brain in Response to Angular Acceleration
169(16)
A.K. Knutsen
W.T. Wang
J.E. McEntee
J. Zhuo
R. Gullapalli
J.L. Prince
P.V. Bayly
J.B. Butman
D.L. Pham
Identification of Tongue Muscle Fibre Group Contraction from MR Images
185(12)
Yikun Wang
Thiranja P. Babarenda Gamage
Poul M.F. Nielsen
Oliver Rohrle
Martyn P. Nash
Finite Element Analysis of Thorax Responses Under Quasi-Static and Dynamic Loading
197
Jikuang Yang
Fang Wang
Guibing Li
Xiaoqing Jiang
Prof Wittek is an Associate Professor of Mechanical and Chemical Engineering at The University of Western Australia. http://www.uwa.edu.au/people/adam.wittek 

Poul Nielsen is an Associate Professor at the Auckland Bioengineering Institute.  http://www.abi.auckland.ac.nz/uoa/poul-nielsen

Karol Miller is the Winthrop Professor of Applied Mechanics at the University of Western Australia: http://school.mech.uwa.edu.au/~kmiller/