Abstract
The single-leg squat (SLS) represents a functional movement task for determining leg function. Objective movement analysis is required to evaluate inter-limb symmetry and movement coordination. Therefore, this study aimed to investigate inter-limb symmetry of SLS kinematics and movement coordination using the modified vector coding technique. A 3D motion capture system and electromyography were used to assess SLS execution and muscle activation of hip ab- and adductors of 17 healthy, recreational athletes. Coordination patterns of hip, knee, and ankle joint movement were assessed by the modified vector coding technique. Statistical parametric mapping revealed no significant differences between both legs (p > 0.05). Inter-limb symmetry also appeared in movement coordination (p > 0.05). Additionally, the analysis of movement coordination indicates knee-dominant, in-phase coordination. However, coordination patterns were different between downward movement, change of direction, and upward movement (p < 0.001). Since perturbations during SLS execution, such as moments of imbalance, occur as anti-phase coordination patterns, the analysis of coordination patterns can be used as a new evaluation method for SLS performance. Furthermore, the modified vector coding technique might be helpful to analyze different compensation strategies during the SLS in symptomatic individuals.
Highlights
Functional movement tests are commonly used in sports clubs, rehabilitation centers, and clinics to determine limb and muscle function
To compare joint kinematics of better-performing leg (BPL) and worse-performing leg (WPL), an SPM paired t-test analysis was conducted for each joint movement
Since the single-leg squat (SLS) test is known as a predictor of hip muscle function [5,43,44], the symmetry of isometric hip adductor and abductor forces might represent the symmetry of frontal plane hip and knee kinematics
Summary
Functional movement tests are commonly used in sports clubs, rehabilitation centers, and clinics to determine limb and muscle function. These tests are typically easy to assess and are known to be an important criterion in injury prevention and return-to-play decisions [1,2,3]. Clinical decision making, as well as reports on the rehabilitation process, are based in part on the rating of these functional movement tasks [1,4,5]. One common functional movement test is the single-leg squat (SLS) [6]. One reason for the increased patellofemoral joint pressure is the dynamic knee valgus, a multiplanar movement in the hip (adduction and internal rotation), knee (abduction and external rotation), and ankle joint (foot pronation)
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