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Open Knee: Capacity to Reproduce Passive Joint Kinematics Ahmet Erdemir and Scott Sibole Computational Biomodeling Core Department of Biomedical Engineering.

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Presentation on theme: "Open Knee: Capacity to Reproduce Passive Joint Kinematics Ahmet Erdemir and Scott Sibole Computational Biomodeling Core Department of Biomedical Engineering."— Presentation transcript:

1 Open Knee: Capacity to Reproduce Passive Joint Kinematics Ahmet Erdemir and Scott Sibole Computational Biomodeling Core Department of Biomedical Engineering Cleveland Clinic July 6, 2011 ISB 2011, Brussels, Belgium

2 Modeling Scott Sibole Ahmet Erdemir Craig Bennetts Randy Heydon Data Bhushan Borotikar Antonie J. van den Bogert Simulation Software Steve Maas Jeff Weiss CREDITS NIH/NIBIB R01EB009643(model development) NIH/NIGMS R01GM083925 (FEBio) NIH/NIAMS R01AR049735 (data collection) Simbios (project hosting)

3 PURPOSES OF KNEE MODELING Joint and tissue functions Pathological impacts Injury mechanisms Surgical interventions Gardiner and Weiss, J Orthop Res, 21: 1098-106, 2003. Park et al., J Biomech, 43: 2039-42, 2010. Vaziri et al., Annals of Biomed Eng, 36: 1335-44, 2008. Saarakkala et al., Osteoarthritis and Cartilage, 18: 73-81, 2010. MCL function ACL impingement Osteoarthritis Menisectomy

4 455 EXAMPLES OF KNEE MODELING 1 Bendjaballah et al., Clin Biomech, 12: 139-48, 1997. 2 Donahue et al., J Biomech Eng, 124: 273-80, 2002. 3 Peña et al., J Biomech, 39: 1686-701, 2006. 4 Dhaher et al., J Biomech, Epub ahead of print, 2010. 1 2 3 4

5 VALIDATION OF KNEE MODELS Joint Level Validation Tibiofemoral kinematics/kinetics Passive flexion Envelope Lifelike loading Tissue Level Validation Structural Contact force/area Ligament force Material Tissue strain/stress Contact pressures

6 VALIDATION OF KNEE MODELS Population-based data Literature on knee kinematics/kinetics Literature on tissue function Specimen-specific data Simple mechanical testing Robotics testing

7 GOALS To establish the capacity of Open Knee for complete reproduction of population-specific passive joint response To disseminate model/data/results for crowd-sourced large- scale population-based/specimen-specific validation at multiple spatial scales

8 METHODS: MODEL Erdemir and Sibole, Open Knee User's Guide, Version 1.0.0, 2010. Bones rigid body Cartilage nearly incompressible Neo- Hookean Menisci Fung orthotropic hyperelastic horn attachments as springs Ligaments transversely isotropic hyperelastic

9 METHODS: DATA 1 Wilson et al., J Biomech, 33: 465-73, 2000. 2 Grood and Suntay, J Biomech Eng, 105: 136-44, 1983. Experimentation 1 15 cadaver specimens Tibia fixed; femur moving Flexion (0° – 100°) prescribed All other dofs free Kinematic Conventions 1 Joint rotations based on Grood and Suntay convention 2 Translations described displacement of posterior tibial insertion of ACL

10 METHODS: SIMULATIONS Passive Knee Flexion time (s) 2.5 100° Knee Flexion Simulation Type Dynamic; implicit time integration Tibia BCs Fixed in space Femur BCs 100° prescribed flexion Other dofs free

11 RESULTS Rotations Internal rotation (up to ~60° flexion) Abduction Translations Posterior (up to ~50° flexion) Proximal Medial (up to ~50° flexion)

12 RESULTS

13 DISCUSSION: SUMMARY Complete passive kinematics response of Open Knee (translation + rotation) was compared against population- based experimental data Passive kinematics was coupled to flexion Proximal-distal translation predictions were not in agreement Open Knee exhibited deviations from experimental data in high flexion angles

14 DISCUSSION: LIMITATIONS Constraint moments (to prescribe flexion angles) were not assessed Population-based (not specimen-specific) data were utilized Model exhibited inherent limitations such as lack of in situ ligament strain Correct joint response predictions may not indicate adequate tissue stress/strain predictions

15 DISCUSSION: FUTURE WORK 1 Blankevoort, et al., J. Biomech, 21: 705-20, 1988. 2 Borotikar BS, Doctoral Dissertation, Cleveland State University, 2009. Sensitivity to tissue properties Validation against envelope of knee joint population-based data 1 Validation against envelope of knee joint specimen-specific data 2 Tissue level validation Collaborative testing & development

16 DISSEMINATION http://simtk.org/home/openknee Wiki Subversion repository Release package Creative Commons Attribute Share-Alike Licensing Software Finite element analysis (free and open for academia) http://mrl.sci.utah.edu/software Scripting (free and open for all) http://www.python.org Mesh generation (proprietary) http://www.truegrid.com

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