Table of Content Springer Book 2012 - Yohan Payan Editor Soft Tissue Biomechanical Modeling for Computer Assisted Surgery

Introduction : Y. Payan.

PART 1: Soft tissue modeling for intraoperative CAS applications

A) Liver tissues


• Chapter 1 : Model-Assisted Image-Guided Liver Surgery Using Sparse Intraoperative Data. A. Simpson, P. Dumpuri, W. Jarnagin, and M. Miga.
  
  
• Chapter 2 : Viscoelastic and Nonlinear Liver Modeling for Needle Insertion Simulation. Y. Kobayashi, H. Watanabe, T. Hoshi, K. Kawamura and M. G. Fujie.
  
  B) Breast tissues
  
  
• Chapter 3 : Application of Biomechanical Modelling to Image-Guided Breast Surgery. T. Carter, L. Han, Z. Taylor, C. Tanner, N. Beechy-Newman, S. Ourselin and D. Hawkes.
  
  C) Brain tissues
  
  
• Chapter 4 : Estimation of Intraoperative Brain Deformation. S. Ji, X. Fan, A. Hartov, D. W. Roberts, K. D. Paulsen.
  
  
• Chapter 5 : Doppler Ultrasound Driven Biomechanical Model of the Brain for Intraoperative Brain-Shift Compensation: A Proof of Concept in Clinical Conditions. M. Bucki, O. Palombi, M. Bailet, and Y. Payan.
  
  D) Prostate tissues
  
  
• Chapter 6 : Biomechanical Modeling of the Prostate for Procedure Guidance and Simulation. S. E. Salcudean, R. Sahebjavaher, O. Goksel, A. Baghani, S.S. Mahdavi, G. Nir, R. Sinkus, and M. Moradi.
  
  PART 2: In vivo estimations of soft tissue constitutive laws
  
  
• Chapter 7 : Measuring the in vivo behavior of soft tissue and organs using the aspiration device. M. Hollenstein, M. Bajka, B. Röhrnbauer, S. Badir, E. Mazza.
  
  
• Chapter 8 : Dynamic Material Properties of Human and Animal Livers. C. Basdogan.
  
  
• Chapter 9 : Validation of a Light Aspiration device for in vivo Soft TIssue Characterization (LASTIC). V. Luboz, E. Promayon, G. Chagnon, T. Alonso, D. Favier, C. Barthod and Y. Payan.
  
  
• Chapter 10 : Harmonic Motion Imaging (HMI) for Tumor Imaging and Treatment Monitoring. E. E. Konofagou, C. Maleke and J. Vappou.
  
  PART 3: Open-source platforms for biomechanical modeling in the context of medical engineering
  
  
• Chapter 11 : SOFA, a Multi-Model Framework for Interactive Physical Simulation. F. Faure, C. Duriez, H. Delingette, J. Allard, B. Gilles, S. Marchesseau, H. Talbot, H. Courtecuisse, G. Bousquet, I. Peterlik and S. Cotin.
  
  
• Chapter 12 : CamiTK : a modular framework integrating visualization, image processing and biomechanical modelling. C. Fouard, A. Deram, Y. Keraval and E. Promayon.
  
  
• Chapter 13 : ArtiSynth: A Fast Interactive Biomechanical Modeling Toolkit Combining Multibody and Finite Element Simulation. J. E. Lloyd, I. Stavness, and S. Fels.