Test-Retest Reliability and Visual Perturbation Performance Costs During 2 Reactive Agility Tasks

Ellen M Smith; David A Sherman; Samantha Duncan; Andy Murray; Meredith Chaput; Amanda Murray; David M Bazett-Jones; Grant E Norte

doi:10.1123/jsr.2023-0433

Test-Retest Reliability and Visual Perturbation Performance Costs During 2 Reactive Agility Tasks

J Sport Rehabil. 2024 Jul 19;33(6):444-451. doi: 10.1123/jsr.2023-0433. Print 2024 Aug 1.

Authors

Ellen M Smith¹, David A Sherman^{2

3}, Samantha Duncan¹, Andy Murray¹, Meredith Chaput⁴, Amanda Murray¹, David M Bazett-Jones¹, Grant E Norte⁴

Affiliations

¹ College of Health and Human Services, The University of Toledo, Toledo, OH, USA.
² Chobanian & Avedisian School of Medicine, Boston University, Boston, MA, USA.
³ Live4 Physical Therapy and Wellness, Acton, MA, USA.
⁴ Cognition, Neuroplasticity, & Sarcopenia (CNS) Lab, Institute of Exercise Physiology and Rehabilitation Science, University of Central Florida, Orlando, FL, USA.

PMID: 39032924
DOI: 10.1123/jsr.2023-0433

Abstract

Context: High secondary injury rates after orthopedic surgeries have motivated concern toward the construct validity of return-to-sport test batteries, as it is evident that common strength and functional assessments fail to elicit pertinent behaviors like visual search and reactive decision making. This study aimed to establish the test-retest reliability of 2 reactive agility tasks and evaluate the impact of visual perturbation on physical performance.

Methods: Fourteen physically active individuals completed 2 agility tasks with reaction time (ie, 4 corner agility), working memory, and pathfinding (ie, color recall) components. Participants completed both tasks 4 times in 2 sessions scheduled 7 days apart. Outcomes included performance metrics of reaction time, time to target, number of targets, and total time assessed with reactive training timing gates. To assess test-retest reliability, we used intraclass correlation coefficients (ICCs), standard error of measurement (SEM), and minimal detectable change (MDC). Stroboscopic goggles induced visual perturbation during the fourth trial of each task. To assess the effect of visual perturbation, we used paired t tests and calculated performance costs.

Results: The 4-corner agility task demonstrated excellent reliability with respect to reaction time (ICC3,1 = .907, SEM = 0.13, MDC = 0.35 s); time to light (ICC3,1 = .935, SEM = 0.07, MDC = 0.18 s); and number of lights (ICC3,1 = .800, SEM = 0.24, MDC = 0.66 lights). The color recall task demonstrated good-to-excellent test-retest reliability for time to lights (ICC3,1 = .818-.953, SEM = 0.07-0.27, MDC = 0.19-0.74 s); test time (ICC3,1 = .969, SEM = 5.43, MDC = 15.04 s); and errors (ICC3,1 = .882, SEM = 0.19, MDC = 0.53 errors). Visual perturbation resulted in increased time to target (P = .022-.011), number of targets (P = .039), and total test time (P = .013) representing moderate magnitude degradation of performance (d = 0.55-0.87, performance costs = 5%-12%).

Conclusions: Both tasks demonstrated acceptable test-retest reliability. Performance degraded on both tasks with the presence of visual perturbation. These results suggest standardized reactive agility tasks are reliable and could be developed as components of dynamic RTS testing.

Keywords: reaction time; return to sport; stroboscopic visual perturbation.

MeSH terms

Adult
Athletic Performance / physiology
Female
Humans
Male
Memory, Short-Term / physiology
Psychomotor Performance / physiology
Reaction Time* / physiology
Reproducibility of Results
Return to Sport
Young Adult