Ankle joint function during walking in tophaceous gout: A biomechanical gait analysis study

Matthew Carroll; Mark Boocock; Nicola Dalbeth; Sarah Stewart; Christopher Frampton; Keith Rome

doi:10.1016/j.gaitpost.2018.04.020

Ankle joint function during walking in tophaceous gout: A biomechanical gait analysis study

Gait Posture. 2018 Jun:63:150-153. doi: 10.1016/j.gaitpost.2018.04.020. Epub 2018 Apr 17.

Authors

Matthew Carroll¹, Mark Boocock², Nicola Dalbeth³, Sarah Stewart⁴, Christopher Frampton⁵, Keith Rome⁶

Affiliations

¹ Auckland University of Technology, Department of Podiatry, School of Clinical Sciences, Auckland, New Zealand. Electronic address: matthew.carroll@aut.ac.nz.
² Auckland University of Technology, Department of Physiotherapy, Health & Rehabilitation Research Institute, Auckland, New Zealand. Electronic address: mboocock@aut.ac.nz.
³ University of Auckland, Department of Medicine, and Department of Rheumatology, Auckland District Health Board, Auckland, New Zealand. Electronic address: ndalbeth@auckland.ac.nz.
⁴ Auckland University of Technology, Department of Podiatry, Health & Rehabilitation Research Institute, Auckland, New Zealand. Electronic address: Sarah.stewart@aut.ac.nz.
⁵ University of Otago, Department of Psychological Medicine, Christchurch, New Zealand. Electronic address: chris.frampton@otago.ac.nz.
⁶ Auckland University of Technology, Department of Podiatry, Health & Rehabilitation Research Institute, Auckland, New Zealand. Electronic address: krome@aut.ac.nz.

PMID: 29734124
DOI: 10.1016/j.gaitpost.2018.04.020

Abstract

Background: The foot and ankle are frequently affected in tophaceous gout, yet kinematic and kinetic changes in this region during gait are unknown. The aim of the study was to evaluate ankle biomechanical characteristics in people with tophaceous gout using three-dimensional gait analysis.

Methods: Twenty-four participants with tophaceous gout were compared with 24 age-and sex-matched control participants. A 9-camera motion analysis system and two floor-mounted force plates were used to calculate kinematic and kinetic parameters.

Results: Peak ankle joint angular velocity was significantly decreased in participants with gout (P < 0.01). No differences were found for ankle ROM in either the sagittal (P = 0.43) or frontal planes (P = 0.08). No differences were observed between groups for peak ankle joint power (P = 0.41), peak ankle joint force (P = 0.25), peak ankle joint moment (P = 0.16), timing for peak ankle joint force (P = 0.81), or timing for peak ankle joint moment (P = 0.16).

Conclusions: Three dimensional gait analysis demonstrated that ankle joint function does not change in people with gout. People with gout demonstrated a reduced peak ankle joint angular velocity which may reflect gait-limiting factors and adaptations from the high levels of foot pain, impairment and disability experienced by this population.

Keywords: Ankle; Gout; Tophus; Walking.

Publication types

Research Support, Non-U.S. Gov't

MeSH terms

Aged
Ankle / physiopathology
Ankle Joint / physiopathology*
Biomechanical Phenomena / physiology*
Case-Control Studies
Female
Gait / physiology*
Gout / diagnosis
Gout / physiopathology*
Humans
Image Interpretation, Computer-Assisted
Imaging, Three-Dimensional
Male
Middle Aged
Muscle Strength / physiology
Range of Motion, Articular
Walking / physiology*