Differences between revisions 1 and 2
Revision 1 as of 2015-12-05 05:53:46
Size: 3108
Editor: ogad
Comment:
Revision 2 as of 2016-05-04 22:09:50
Size: 3108
Editor: localhost
Comment: converted to 1.6 markup
Deletions are marked like this. Additions are marked like this.
Line 5: Line 5:
[[TableOfContents]] <<TableOfContents>>

Contents

  1. Synopsis
    1. Use Case
    2. Simulation Aims
    3. Model
    4. Inputs
    5. Outputs
    6. Simulation Conditions
  2. Team Members
  3. Progress
    1. Source Code Repository
    2. Data
    3. Model Customization
    4. Simulations
    5. Post-Processing
    6. Publications
  4. References

Synopsis

The overall goal of this case study is to analyze the role of the transverse ligament (TL) in menisci & cartilage mechanics in the Open Knee(s) - Generation 1 model.

Use Case

The case is based on experimental studies investigating the role of the transverse ligament in menisci translation and menisci/cartilage stress distributions. Muhle, 1999 explored menisci kinematics in the presence and absence of the transverse ligament, and found that the TL had a restricting effect on translation of the anterior horn of the medial meniscus. The use cases aims for illustrating the capacity of the Open Knee(s) - Generation 1 model to analyze the function of a ligament via in silico modeling techniques.

Simulation Aims

  • To understand the role of the transverse ligament in menisci & cartilage mechanics during passive flexion & compression (primary)

  • To explore the correspondence of Open Knee(s) simulation against experimental passive flexion data of the knee (secondary)

Model

The model is based on Open Knee(s) - Generation 1 model, which was updated for FEBio version 2.X (release will include in situ strains and material properties for meniscal attachments):

Inputs

Prescribed movement and loading of the tibiofemoral joint representative of experimental data from Muhle, 1999:

  • 0, 30, 60, 90 degrees flexion (primary)

Outputs

  • Time histories of menisci kinematic, stress behavior (primary)
  • Time histories of cartilage stress-strain behavior (primary)
  • Time histories of kinematics-kinetics of the tibiofemoral joint (six degrees of freedom) (secondary)
    • flexion torque
    • internal/external rotation
    • varus/valgus
    • anterior/posterior translation
    • medial/lateral translation
    • compression/distraction

Simulation Conditions

  • with intact TL
  • without TL (very low stiffness for convenient modeling and simulation workflow)

Team Members

  • Ahmet Erdemir - study planning, outline of publications
  • Omar Gad - execution of simulations and post-processing, lead authorship in publications
  • Craig Bennetts - assisting simulations, scripting for pre-/post-processing, support to document model in publications
  • Snehal Chokhandre - support to document model in publications

Progress

Source Code Repository

https://simtk.org/svn/openknee/app/TransverseLigament/

Data

https://simtk.org/svn/openknee/app/TransverseLigament/dat/

Model Customization

https://simtk.org/svn/openknee/app/TransverseLigament/src/

Simulations

Post-Processing

https://simtk.org/svn/openknee/app/TransverseLigament/sol/

Publications

https://simtk.org/svn/openknee/app/TransverseLigament/doc/

References

  1. Muhle et al., 1999. Invest Radiol, 34(9) 558-565.

  2. Poh et al., 2010. The Knee, 19(2012), 135-139.

Cases/TransverseLigament (last edited 2016-05-04 22:09:50 by localhost)