The relationship of peak ankle dorsiflexion angle with lower extremity biomechanics during walking.

Abstract

Abnormal lower limb movement patterns have been observed during walking in individuals with limited ankle dorsiflexion. The purpose of this study was to investigate the relationships of peak ankle dorsiflexion angle during the stance phase of walking with the lower extremity biomechanics at the corresponding moment and to determine a cutoff value of functional limited ankle dorsiflexion during walking. Kinematic and kinetic data of 70 healthy participants were measured during walking. Spearman's correlation coefficients were calculated to establish the association between peak ankle dorsiflexion and angle and moment of ankle, knee, and hip, ground reaction force, and pelvic movement at peak ankle dorsiflexion. All variables significantly related to peak ankle dorsiflexion were extracted as a common factor by factor analysis. Maximally selected Wilcoxon statistic was used to perform a cutoff value analysis. Peak ankle dorsiflexion positively correlated with ankle plantar flexion moment (r=0.432; p=0.001), ankle external rotation moment (r=0.251; p=0.036), hip extension angle (r=0.281; p=0.018), hip flexion moment (r=0.341; p=0.004), pelvic ipsilateral rotation angle (r=0.284; p=0.017), and medial, anterior, and vertical ground reaction force (r=0.324; p=0.006, r=0.543; p=0.001, r=0.322; p=0.007), negatively correlated with knee external rotation angle (r=-0.394; p=0.001) and hip adduction angle (r=-0.256; p=0.032). The cutoff baseline value for all 70 participants was 9.03°. There is a correlation between the peak ankle dorsiflexion angle and the lower extremity biomechanics during walking. If the peak ankle dorsiflexion angle is less than 9.03°, the lower limb movement pattern will change significantly.