Comparison of distinctive gait variables using two different biomechanical models for knee joint kinematics in subjects with knee osteoarthritis and healthy controls

• Published in: Clinical biomechanics (Bristol) Vol. 27; no. 3; pp. 281 - 286
• Main Authors: Krauss, Inga, List, Renate, Janssen, Pia, Grau, Stefan, Horstmann, Thomas, Stacoff, Alex
• Format: Journal Article
• Language: English
• Published: England Elsevier Ltd 01.03.2012
• Subjects: Adult; Anatomical coordinate system; Angular decomposition; Computer Simulation; Female; Humans; Instrumented gait analysis; Knee Joint - physiopathology; Knee joint kinematics; Models, Biological; Osteoarthritis; Osteoarthritis, Knee - physiopathology; Peptides; Physical Medicine and Rehabilitation; Range of Motion, Articular; Reference Values; Walking; Angular decomposition; Instrumented gait analysis; Anatomical coordinate system; Osteoarthritis; Knee joint kinematics
• ISSN: 0268-0033; 1879-1271; 1879-1271
• DOI: 10.1016/j.clinbiomech.2011.09.013

Gait analysis is an important instrument in clinical research and results should be objective. The purpose of this study was to quantify clinical outcomes of two biomechanical models with different anatomical coordinate systems and angle decomposition strategies for knee joint kinematics. The study was designed to compare a functional approach and a predictive approach with a single comprehensive marker set. 10 healthy subjects and 12 subjects with knee osteoarthritis were analysed. Distinctive gait variables were averaged across five trials. Agreement between methods was illustrated with the so-called levels of agreement. Differences between models were quantified using a paired t-test or Wilcoxon-Signed Rank test in case of non-normality (Shapiro–Wilk test). Unpaired t-tests/Wilcoxon tests were used to compare gait variables between healthy subjects and subjects with knee osteoarthritis, and to examine whether statistical analysis of this comparison would yield different data interpretations when using different models. Outcome variables differed between the functional and predictive approaches in the sagittal plane (0.1–3.1°), and transverse plane (1.0–3.7°). With respect to the range of motion in the given movement plane, variables in the sagittal plane of the knee were more consistent between methods. The functional approach was more sensitive for detecting differences between groups for sagittal plane kinematics. Statistical analysis for transverse plane kinematics differed substantially between models. Sensitivity to detect differences of kinematic data between population groups can vary between biomechanical models. Rotational gait variables are inconsistent between models and should not be used as clinical outcome variables in daily routine.