Abstract
The aims of the present study were to determine test-retest reliability for unilateral strength and power tests used to quantify asymmetry and determine the consistency of both the magnitude and direction of asymmetry between test sessions. Twenty-eight recreational trained sport athletes performed unilateral isometric squat, countermovement jump (CMJ) and drop jump (DJ) tests over two test sessions. Inter-limb asymmetry was calculated from both the best trial and as an average of three trials for each test. Test reliability was computed using the intraclass correlation coefficient (ICC), coefficient of variation (CV) and standard error of measurement (SEM). In addition, paired samples t-tests were used to determine systematic bias between test sessions and Kappa coefficients to report how consistently asymmetry favoured the same side. Within and between-session reliability ranged from moderate to excellent (ICC range = 0.70–0.96) and CV values ranged from 3.7–13.7% across tests. Significant differences in asymmetry between test sessions were seen for impulse during the isometric squat (p = 0.04; effect size = –0.60) but only when calculating from the best trial. When computing the direction of asymmetry across test sessions, levels of agreement were fair to substantial for the isometric squat (Kappa = 0.29–0.64), substantial for the CMJ (Kappa = 0.64–0.66) and fair to moderate for the DJ (Kappa = 0.36–0.56). These results show that when asymmetry is computed between test sessions, the group mean is generally devoid of systematic bias; however, the direction of asymmetry shows greater variability and is often inter-changeable. Thus, practitioners should consider both the direction and magnitude of asymmetry when monitoring inter-limb differences in healthy athlete populations.
Highlights
Inter-limb asymmetry refers to differences in the performance or function of one limb with respect to the other [1,2]
The isometric squat showed good to excellent relative reliability during both test sessions (ICC = 0.89–0.96) and the greatest variability of all tests (CV = 4.9–13.7%), peak force (PF) showed low variability during both test sessions (CV ≤ 5.7%)
The unilateral countermovement jumps (CMJ) showed good to excellent reliability and acceptable variability in both test sessions (ICC = 0.81–0.93; coefficient of variation (CV) ≤ 5.8%)
Summary
Inter-limb asymmetry refers to differences in the performance or function of one limb with respect to the other [1,2]. Strength testing methods to quantify asymmetry have included the back squat [5,6], isometric squat and mid-thigh pull [7,8] or isokinetic dynamometry [9,10]. Jump tests such as countermovement jumps (CMJ) [3,4,5,11,12] and drop jumps (DJ) [13,14] are commonly assessed to quantify asymmetry, most likely because of their similarity to sport-specific movement patterns, ease of implementation and time-efficient nature. Limited literature exists in this capacity with respect to asymmetry; further examination of unilateral tests which can be used to quantify inter-limb differences over more than a single test session is warranted [18,19]
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