1. ABOUT THE DATASET -------------------- Title: Dataset associated with "The Wear and Kinematics of Two Medially Stabilised Total Knee Replacement Systems" Creator(s): Raelene M Cowie, Louise M Jennings Organisation(s): Institute of Medical and Biological Engineering, School of Mechanical Engineering, University of Leeds Rights-holder(s):Unless otherwise stated, Copyright 2024 University of Leeds Publication Year: 2024 Description: The dataset contains data relating to the publication "The Wear and Kinematics of Two Medially Stabilised Total Knee Replacement Systems" including; input kinematics to the simulator, the wear volume of the UHMWPE tibial components the surface topography of the implants pre- and post-test and analysis of the simulator output kinematics. Cite as: Raelene Cowie, Louise Jennings (2024): Dataset associated with "The Wear and Kinematics of Two Medially Stabilised Total Knee Replacement Systems". University of Leeds [Dataset]. https://doi.org/10.5518/1436 Related publication: Cowie, R. M., Cullum, C. J., Collins, S. N., & Jennings, L. M. (2024). The wear and kinematics of two medially stabilised total knee replacement systems. The Knee, 47, 160-170. https://doi.org/10.1016/j.knee.2024.01.004 Contact: r.cowie@leeds.ac.uk; l.m.jennings@leeds.ac.uk 2. TERMS OF USE --------------- Copyright 2024 University of Leeds. Unless otherwise stated, this dataset is licensed under a Creative Commons Attribution 4.0 International Licence: https://creativecommons.org/licenses/by/4.0/. 3. PROJECT AND FUNDING INFORMATION ---------------------------------- Title: Wear of Medially Stabilised Total Knee Replacements Dates: 2020 - 2021 Funding organisation: MatOrtho Ltd.; EPSRC Medical Technologies Innovation and Knowledge Centre Phase 2 Regenerative Devices Grant no.: EP/N00941X/1 4. CONTENTS ----------- input_kinematics.txt UHMWPE_wear_volume.txt kinematic_outputs.txt surface_roughness.txt Please copy and paste the files into Excel for correct formatting 5. METHODS ---------- - Study carried out on ProSim Electromechanical knee simulator [KS9] under force controlled input kinematic conditions - Gravimetric analysis carried out on a Mettler Toledo XP205 digital microbalance and converted to a wear volume using the density of GUR 1020 UHMWPE - Surface topographical analysis carried out using a Taylor Hobson contacting Form Talysurf (PGI 800) - Full methods described in the manuscript