• Title of article

    Hip, knee, ankle kinematics and kinetics during stair ascent and descent in healthy young individuals

  • Author/Authors

    Anastasia Protopapadaki، نويسنده , , Wendy I. Drechsler، نويسنده , , Mary C. Cramp، نويسنده , , Fiona J. Coutts، نويسنده , , Oona M. Scott، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2007
  • Pages
    8
  • From page
    203
  • To page
    210
  • Abstract
    Background Few studies have reported the biomechanical aspects of stair climbing for this ergonomically demanding task. The purpose of this ethically approved study was to identify normal functional parameters of the lower limb during stair climbing and to compare the actions of stair ascent and descent in young healthy individuals. Methods Thirty-three young healthy subjects, (16 M, 17 F, range 18–39 years) participated in the study. The laboratory staircase consisted of four steps (rise height 18 cm, tread length 28.5 cm). Kinematic data were recorded using 3D motion analysis system. Temporal gait cycle data and ground reaction forces were recorded using a force platform. Kinetic data were standardized to body mass and height. Findings Paired-samples t tests showed significantly greater hip and knee angles (mean difference standard deviation (SD): hip 28.10° (SD 4.08), knee 3.39° (SD 7.20)) and hip and knee moments (hip 0.25 N m/kg (SD 0.18), knee 0.17 N m/kg (SD 0.15)) during stair ascent compared to descent. Significantly greater ankle dorsiflexion angles (9.90° (SD 3.80)) and plantarflexion angles (8.78° (SD 4.80)) were found during stair descent compared to ascent. Coefficient of variation (mean (SD)) in percentage between repeated tests varied for joint angles and moments, respectively (2.35% (SD 1.83)–17.53% (SD 13.62)) and (4.65% (SD 2.99)–40.73% (SD 24.77)). Interpretation Stair ascent was shown to be the more demanding biomechanical task when compared to stair descent for healthy young subjects. The findings from the current study provide baseline measures for pathological studies, theoretical joint modelling, and for mechanical joint simulators.
  • Keywords
    Motion analysis , Stair climbing , Kinematics , Kinetics
  • Journal title
    Clinical Biomechanics
  • Serial Year
    2007
  • Journal title
    Clinical Biomechanics
  • Record number

    486685