Hip and trunk biomechanics and dynamic balance during steady-state stair walking in people with mild-to-moderate hip osteoarthritis

Steingrebe, Hannah; Sell, Stefan; Ehmann, Hannah; Stein, Thorsten

Affiliations

¹BioMotion Center, Institute of Sports and Sports Science (IfSS), Karlsruhe Institute of Technology (KIT), Karlsruhe, Germany

²Sports Orthopedics, Institute of Sports and Sports Science (IfSS), Karlsruhe Institute of Technology (KIT), Karlsruhe, Germany

³Joint Center Black Forest, Hospital Neuenbürg, Neuenbürg, Germany

Abstract and keywords

Stair walking is more demanding than level walking, and differences have been found between steady-state stair walking and gait-to-stair or stair-to-gait transition. However, there is limited knowledge on steady-state stair walking biomechanics in people with hip osteoarthritis (HOA) as all existing data were obtained during gait-to-stair transition. The aim of the present study was to investigate the effects of mild-to-moderate HOA on hip and trunk biomechanics and dynamic balance during steady-state stair walking.

Hip and trunk biomechanics and dynamic balance during steady-state stair walking were assessed in 21 participants with mild-to-moderate HOA and 21 age-matched healthy controls using an optoelectronic motion capture system and a custom-built instrumented six-step staircase. Dynamic balance was assessed using the inverted pendulum model with an extrapolated centre of mass. Differences between the two groups were analysed with an independent t-test either on discrete parameters or on entire time curves using statistical parametric mapping.

The HOA group showed longer stride and stance phase durations during stair ascent and descent, and lower peak vertical CoM acceleration during stair descent vs. the control group. Trunk kinematics did not differ between groups. Lower frontal plane hip range of motion and hip internal rotation moment, but greater anterior margin of stability were observed during stair ascent in the HOA vs. control group.

Mild-to-moderate HOA reduced frontal hip mobility but did not affect mediolateral dynamic balance during steady-state stair walking. Despite a lack of alterations in sagittal hip or trunk kinematics or dynamics, greater anterior margin of stability in HOA vs. control participants showed a more stable but potentially less efficient motion during stair ascent. Lastly, lower vertical acceleration during stair descent might reduce impact and joint loading at initial contact. Future studies should analyse gait efficiency and joint loading, and the effect of HOA severity and muscle force capacity on steady-state stair walking biomechanics in people with HOA.

Keywords: Stairs; Hip osteoarthritis; Joint loading; Range of motion; Postural control

Links

DOI: 10.1016/j.jbiomech.2025.112709

PubMed: 40262360

WoS: 001477668900001

History

Revised: 2025-04-15

Online: 2025-04-16

Cited Works (6)

Year	Entry
1995	Winter DA. Human balance and posture control during standing and walking. Gait Post. December 1995;3(4):193-214.
2005	Hof AL, Gazendam MGJ, Sinke WE. The condition for dynamic stability. J Biomech. January 2005;38(1):1-8.
2001	Bergmann G, Deuretzbacher G, Heller M, Graichen F, Rohlmann A, Strauss J, Duda GN. Hip contact forces and gait patterns from routine activities. J Biomech. July 2001;34(7):859-871.
2007	Harrington ME, Zavatsky AB, Lawson SEM, Yuan Z, Theologis TN. Prediction of the hip joint centre in adults, children, and patients with cerebral palsy based on magnetic resonance imaging. J Biomech. 2007;40(3):595-602.
2012	Kristianslund E, Krosshaug T, van den Bogert AJ. Effect of low pass filtering on joint moments from inverse dynamics: implications for injury prevention. J Biomech. February 23, 2012;45(4):666-671.
2010	Pataky TC. Generalized n-dimensional biomechanical field analysis using statistical parametric mapping. J Biomech. July 20, 2010;43(10):1976-1982.