Effects of Variations in Hemiparetic Gait Patterns on Improvements in Walking Speed

Elsevier

Available online 5 September 2022

IRBMHighlights•

The linear fit method allows for in depth comparison of hemiparetic gait patterns.

Hemiparetic gait kinematics can be described with respect to walking speed.

Some joint kinematics diverge from healthy baselines as walking speed increases.

Higher walking speeds can be achieved with compensatory gait techniques.

AbstractIntroduction

Current research suggests that self-selected walking speed is an important indicator of hemiparetic gait rehabilitation outcome and can be targeted for improvement. Analysis of the relationship between walking speed and the kinematic profiles of the hemiparetic gait cycle can be expanded by comparing variations in their time dependant waveforms.

Methods

This paper is a pilot study to explore utilising the Linear Fit Method to compare the gait of a group of stroke survivors against a healthy baseline with respect to walking speed. This produced a set of parameters with clear physiological meaning that describe the variation of the hemiparetic gait pattern from the healthy pattern. A linear regression analysis was then performed comparing the resulting parameters against gait speed.

Results

Significant linear relationships (p<0.05) were found between the Linear Fit parameters describing the hemiparetic gait pattern variations and walking speed in both paretic and non-paretic limbs. Most notably peak paretic knee flexion reduced by 20° and peak paretic hip abductions reducing to a nearly normal pattern while peak paretic hip flexions increased by 10°. The non-paretic hip flexion peak extensions remained 10° below the healthy comparison hip abduction offset was reduced but remained at nearly 2.5° to 5° from the healthy comparison.

Conclusions

As stroke survivors achieved higher walking speeds some aspects of their gait became more similar to the healthy comparison though others had no relation, or their differences became more pronounced. Combined, these relations show how paretic and non-paretic joint kinematics can be used to start identifying and quantifying effective compensatory hemiparetic gait patterns.

Graphical abstractDownload : Download high-res image (172KB)Download : Download full-size imageKeywords

Gait analysis

Hemiparetic gait

Stroke

Gait rehabilitation

Linear fit method

© 2022 AGBM. Published by Elsevier Masson SAS.

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