Ankle joint contact force profiles differ between those with and without chronic ankle instability during walking

Gait Posture. 2023 Feb:100:1-7. doi: 10.1016/j.gaitpost.2022.11.012. Epub 2022 Nov 25.

Abstract

Background: Individuals with chronic ankle instability (CAI) exhibit aberrant gait biomechanics relative to uninjured controls. Altered gait biomechanics likely contribute aberrant joint loading and subsequent early onset ankle joint degeneration. Joint (i.e. cartilage) loading cannot be directly measured without invasive procedures but can be estimated via joint contact forces (JCF) generated from musculoskeletal modeling. However, no investigation has quantified JCF in those with CAI during walking despite the link between ligamentous injury and ankle post-traumatic ankle osteoarthritis.

Research question: Do patients with CAI exhibit altered ankle compressive and shear JCF profiles during the stance phase of walking compared to those without CAI?

Methods: Ten individuals with CAI and 10 individuals without a history of ankle sprain completed a gait assessment at their self-selected speed on an instrumented treadmill. Musculoskeletal modeling was applied to estimate ankle JCF variables within a generic model. Variables included the peak, impulse, and loading rates for compressive, anteroposterior shear, and mediolateral shear JCF.

Results: Those with CAI had significantly different JCF forces, relative to uninjured controls, in all directions. More specifically, lower compressive peak and impulse values were noted while higher anteroposterior shearing forces (1 st peak, impulse, loading late) were observed in those with CAI. Those with CAI also demonstrated higher mediolateral shearing forces (1 st peak and impulse).

Significance: Our finding suggests that those with CAI exhibit different ankle joint loading patterns than uninjured controls. Directionality of the identified differences depends on the axis of movement.

Keywords: Gait; Joint loading; Musculoskeletal modeling; OpenSim.

MeSH terms

  • Ankle
  • Ankle Joint
  • Biomechanical Phenomena
  • Chronic Disease
  • Gait
  • Humans
  • Joint Instability*
  • Lower Extremity
  • Osteoarthritis*
  • Walking