Time-varying behaviour, test–retest reliability and concurrent validity of lateral trunk lean and toe-out angles during prolonged treadmill walking

• Published in: Gait & posture Vol. 34; no. 1; pp. 81 - 85
• Main Authors: Bechard, Daniel J, Birmingham, Trevor B, Zecevic, Aleksandra A, Jenkyn, Thomas R
• Format: Journal Article
• Language: English
• Published: England Elsevier B.V 01.05.2011
• Subjects: Adaptation, Physiological; Adult; Analysis of Variance; Biomechanical Phenomena; Compensatory gait biomechanics; Exercise Test; Female; Gait - physiology; Human locomotion; Humans; Male; Measurement properties; Middle Aged; Orthopedics; Posture - physiology; Reproducibility of Results; Thorax - physiology; Toes - physiology; Walking - physiology; Weight-Bearing; Compensatory gait biomechanics; Human locomotion; Measurement properties
• ISSN: 0966-6362; 1879-2219
• DOI: 10.1016/j.gaitpost.2011.03.017

Abstract Lateral trunk lean over the stance limb and toeing-out are potential adaptive gait mechanisms that reduce knee joint loading. The purpose of the present study was to evaluate the time-varying behaviour, the test–retest reliability and the concurrent validity of lateral trunk lean angle and toe-out angle during prolonged walking in healthy adults. Twenty healthy volunteers (51 ± 8 years, 12 females) completed two test sessions at least 24 h apart but within the same week. For each participant, at each session, three-dimensional gait kinematics were assessed intermittently during 60 min of treadmill walking. Additionally, over-ground three-dimensional gait analysis was performed immediately before and after the treadmill walking. Maximum lateral trunk lean angle and maximum toe-out angle did not change over time ( p > 0.05), were consistent from day to day (test–retest reliability: ICC = 0.61–0.72 and 0.90–0.95, respectively) and were consistent with over-ground measures (concurrent validity: ICC = 0.88 and 0.92, respectively). These findings suggest that lateral trunk lean angle and toe-out angle are consistent during prolonged walking and that these measures are reliable and valid for use in studying adaptive gait mechanisms.