The role of the ankle plantar flexor muscles in trip recovery during walking: a computational modeling study.

BACKGROUND

Reactive lower limb muscle function during walking plays a role in balance, stability, and ultimately fall prevention. The objective of this study was to evaluate muscle and joint function used to regain balance after trip-based perturbations during walking.

RESEARCH QUESTION

How are lower limb muscles used to recover from external tripping during walking?

METHOD

The dominant legs of 20 healthy adult participants with similar athletic backgrounds were tripped using a split-belt instrumented treadmill. High- and medium-intensity trips were simulated by deceleration of the dominant leg at initial contact from the speed of 1.1 m/s to 0 m/s and back to 1.1 m/s in 0.4 s and 0.8 s, respectively. Lower limb kinematics, kinetics, and muscle forces following perturbations were computed to pre-perturbation values using statistical parametric mapping (SPM) paired -test.

RESULTS

A greater ankle dorsiflexion angle (mean difference: 5.3°), ankle plantar flexion moment (mean difference: ), and gastrocnemius and soleus muscle forces (mean difference: and for GAS and SOL, respectively) were observed post-perturbation step despite the magnitude of the perturbation.

SIGNIFICANCE

This study concludes that adequate timely response of ankle function during a compensatory step is required for a successful recovery after tripping during walking in young healthy adults. Weakness in plantar flexors suggests insufficient ankle moments, which ultimately can result in falls. The findings of this paper can be used as a reference for the joint moments and range of motion needed to recover trips in the design of assistive devices. In addition to that, clinicians can use the estimated values of muscle forces and the pattern of muscle activities to design targeted training in fall prevention among the elderly.