The influence of gait and speed on the dynamic navicular drop : A cross sectional study on healthy subjects
Version
Published
Date Issued
2018
Author(s)
Type
Article
Language
English
Abstract
Introduction
Variations of gait speed influence kinematic variables that may have an effect on dynamic foot deformation. The influence of gait speed on the navicular drop has not yet been investigated.
Methods
The navicular drop was evaluated in static and dynamic conditions using a 3D-motion capture system. The dynamic navicular drop was evaluated on a treadmill while walking and running at three different speeds. A repeated measures ANOVA and post-hoc tests were conducted to evaluate the differences in dynamic navicular drop, corresponding unloaded navicular height at foot strike and loaded navicular height during stance.
Results
Higher walking speed led to a significant decrease in navicular height at foot strike and a subsequent decrease of dynamic navicular drop (p = 0.006). Across increasing running speeds, minimum navicular height was significantly decreased which in consequence led to an increased dynamic navicular drop (p = 0.015). For walking and running at the same speed, there was a large effect of gait style with an increase of dynamic navicular drop by 3.5 mm (p < 0.001) during running.
Discussion
The change of gait from walking to running at the same speed had a large effect on dynamic navicular drop. The values of navicular height at foot strike and minimum navicular height during stance should be taken into account for the interpretation of dynamic navicular drop measures. Static and dynamic navicular drop measures differ substantially.
Keywords
Navicular height ; Navicular drop ; Gait speed ; Barefoot kinematics ; 3-D motion capture
Variations of gait speed influence kinematic variables that may have an effect on dynamic foot deformation. The influence of gait speed on the navicular drop has not yet been investigated.
Methods
The navicular drop was evaluated in static and dynamic conditions using a 3D-motion capture system. The dynamic navicular drop was evaluated on a treadmill while walking and running at three different speeds. A repeated measures ANOVA and post-hoc tests were conducted to evaluate the differences in dynamic navicular drop, corresponding unloaded navicular height at foot strike and loaded navicular height during stance.
Results
Higher walking speed led to a significant decrease in navicular height at foot strike and a subsequent decrease of dynamic navicular drop (p = 0.006). Across increasing running speeds, minimum navicular height was significantly decreased which in consequence led to an increased dynamic navicular drop (p = 0.015). For walking and running at the same speed, there was a large effect of gait style with an increase of dynamic navicular drop by 3.5 mm (p < 0.001) during running.
Discussion
The change of gait from walking to running at the same speed had a large effect on dynamic navicular drop. The values of navicular height at foot strike and minimum navicular height during stance should be taken into account for the interpretation of dynamic navicular drop measures. Static and dynamic navicular drop measures differ substantially.
Keywords
Navicular height ; Navicular drop ; Gait speed ; Barefoot kinematics ; 3-D motion capture
Publisher DOI
Journal or Serie
The Foot
ISSN
0958-2592
Organization
Volume
36
Publisher
Elsevier
Submitter
ServiceAccount
Citation apa
Pohl, J., Jaspers, T., Ferraro, M., Krause, F., Baur, H., & Eichelberger, P. (2018). The influence of gait and speed on the dynamic navicular drop : A cross sectional study on healthy subjects. In The Foot (Vol. 36, pp. 67–73). Elsevier. https://doi.org/10.24451/arbor.6767
File(s)![Thumbnail Image]()
Loading...
restricted
Name
The influence of gait and speed on the dynamic navicular drop.pdf
License
Publisher
Version
published
Size
987.96 KB
Format
Adobe PDF
Checksum (MD5)
9ffe0df8e3108ca26b3b7f145012f44f