Specimen-specific tibial kinematics model for in vitro gait simulations

Until now, the methods used to set up in vitro gait simulations were not specimen specific, inflicting several problems when dealing with specimens of considerably different dimensions and requiring arbitrary parameter tuning of the control variables. We constructed a model that accounts for the geometric dimensions of the specimen and is able to predict the tibial kinematics during the stance phase. The model predicts tibial kinematics of in vivo subjects with very good accuracy. Furthermore, if used in in vitro gait simulation studies, it is able to recreate physiological vertical ground reaction forces. By using this methodology, in vitro studies can be performed by taking the specimen variability into account, avoiding pitfalls with specimens of different dimensions.

[1]  C J Nester,et al.  In vitro study of foot kinematics using a dynamic walking cadaver model. , 2007, Journal of biomechanics.

[2]  F. Luyten,et al.  High inter-specimen variability of baseline data for the tibio-talar contact area. , 2008, Clinical biomechanics.

[3]  Antonie J van den Bogert,et al.  Design and validation of a general purpose robotic testing system for musculoskeletal applications. , 2010, Journal of biomechanical engineering.

[4]  Frank L Buczek,et al.  Relative motions of the tibia, talus, and calcaneus during the stance phase of gait: a cadaver study. , 2004, Gait & posture.

[5]  Eric C Whittaker,et al.  Foot bone kinematics as measured in a cadaveric robotic gait simulator. , 2011, Gait & posture.

[6]  N. Sharkey,et al.  A dynamic cadaver model of the stance phase of gait: performance characteristics and kinetic validation. , 1998, Clinical biomechanics.

[7]  In vitro measurement of intraarticular pressure in the ankle joint , 2010, Knee Surgery, Sports Traumatology, Arthroscopy.

[8]  Koen Peeters,et al.  In vitro analysis on the effect of muscle action on hind foot kinematics during stance , 2012 .

[9]  Gi Sang Choi,et al.  A study on tracking position control of pneumatic actuators , 2002 .

[10]  Kai Nan An,et al.  IN VITRO SIMULATION OF THE STANCE PHASE IN HUMAN GAIT , 2001 .

[11]  Christof Hurschler,et al.  In Vitro Simulation of Stance Phase Gait Part I: Model Verification , 2003, Foot & ankle international.

[12]  T Herberts,et al.  Chopart's joint load during gait. In vitro study of 10 cadaver specimen in a dynamic model. , 2008, Gait & posture.

[13]  Daniel Vélez Día,et al.  Biomechanics and Motor Control of Human Movement , 2013 .