Explaining the hip adduction moment variability during gait: Implications for hip abductor strengthening
Date
2009
Authors
Rutherford, Derek
Hubley-Kozey, Cheryl
Journal Title
Journal ISSN
Volume Title
Publisher
Elsevier
Abstract
Background
There is emerging interest in hip abductor function during gait and its potential relationship to knee joint pathology. During gait, the hip abductor muscles are primarily responsible for generating moments of force to control frontal plane movement. The current study investigated the relationship between hip abductor muscle function and frontal plane hip moments of force during gait.
Methods
Frontal plane hip moments of force and electromyographic features of gluteus medius were measured during walking in 22 healthy individuals. Hip abductor strength, subject anthropometrics and gait velocity were recorded. Multiple regression models were used to evaluate the relationship between the anthropometric, velocity, strength and electromyographic variables and the initial and mid-stance magnitude of the hip adduction moment.
Findings
A positive relationship was found between the initial peak moment (Nm), and both body mass and gait speed (R2 = 90%). Body mass (positive) and hip abductor strength (negative) explained significant levels of mid-stance magnitude variability (R2 = 62.5%). Gait speed (positive) explained significant levels of variability in the normalized initial peak moment (Nm/kg) (R2 = 52%). No variables were included in the normalized mid-stance moment model (P > 0.05).
Interpretation
Body mass was the key factor associated with high hip adduction moments during initial and mid-stance of the gait cycle. Increased gait velocity was associated with higher initial peaks and higher muscle strength was associated with lower mid-stance magnitude of the external hip adductor moment during walking. These findings suggest that in a healthy adult population, hip abductor strength and activation were not directly related to the hip adduction moment magnitude during gait.
Description
The authors acknowledge that the study sponsors had no involvement in study design, data collection, analysis and interpretation of the data, writing of the manuscript and in the decision to submit the manuscript for publication.
The authors would like to thank the individuals of the Dynamics of Human Movement Laboratory, Dalhousie University for their support in data acquisition.
Keywords
Gait analysis, Electromyography, Gluteus medius, Hip adduction moment, Walking velocity, Hip abduction strength
Citation
Rutherford, D. J., & Hubley-Kozey, C. (2009). Explaining the hip adduction moment variability during gait: Implications for hip abductor strengthening. Clinical Biomechanics, 24(3), 267-273.