Gait Asymmetry in Patients with Limb Length Discrepancy

Overview

Journal Scand J Med Sci Sports

Specialty Orthopedics

Date 2004 Jan 16

PMID 14723788

Citations 35

Authors

J R Perttunen

E Anttila

J Sodergard

J Merikanto

P V Komi

Affiliations

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Abstract

Foot loading patterns and neuromuscular function of both limbs during walking were investigated on 25 patients with limb length discrepancy. Plantar pressures and 2-D ground reaction forces were recorded simultaneously with electromyographic activities at two different walking speeds. Bilateral comparison indicated that moderate limb length discrepancies resulted in asymmetrical gait patterns. The duration of the stance phase was reduced in the short limb in both walking speeds. The vertical ground reaction force (F) in the push-off phase was greater in the long limb both at normal (1.33 (SO, 0.05 BW) vs. 1.29 (SD, 0.09 BW)) (P=0.0027) and fast walking speed (1.55 (SD, 0.11) vs. 1.48 (SD, 0.15 BW)) (P=0.001). Peak plantar pressures were higher under the big toe in the long leg and the heel-off occurred faster. The push-off phase was initiated earlier in the short leg. The maximum isometric torque of the long limb was considerably greater (673 Nm vs. 239 Nm) (P=0.026). The results imply that the loading of the long limb is greater and the foot loading patterns shifted more to the forefoot in the long, limb to compensate walking disturbances caused by limb length discrepancies.

Citing Articles

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PMID: 39589611 PMC: 11599690. DOI: 10.1186/s40798-024-00790-w.

Gait asymmetry in spatiotemporal and kinetic variables does not increase running-related injury risk in lower limbs: a secondary analysis of a randomised trial including 800+ recreational runners.

Malisoux L, Gette P, Delattre N, Urhausen A, Theisen D BMJ Open Sport Exerc Med. 2024; 10(1):e001787.

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Acute effects of muscle mechanical properties after 2000-m rowing in young male rowers.

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Effects of Artificially Induced Leg Length Discrepancy on Treadmill-Based Walking and Running Symmetry in Healthy College Students: A Lab-Based Experimental Study.

Korontzi M, Kafetzakis I, Mandalidis D Sensors (Basel). 2023; 23(24).

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