RELIABILITY OF KNEE EXTENSOR NEUROMUSCULAR STRUCTURE AND FUNCTION AND FUNCTIONAL TESTS’ PERFORMANCE

ABSTRACT Introduction The aim of this study was to evaluate the intra and inter-rater and inter-analyzer reliability of neuromuscular variables and functional tests. Methods : Cross-sectional crossover design. Two independent raters and analyzers evaluated twenty-two healthy subjects. Knee-extensor strength was assessed from three maximal voluntary isometric contractions. Muscle activation was obtained from the vastus lateralis (VL), rectus femoris (RF), and vastus medialis (VM) muscles. VL and RF muscles’ architecture [fascicle length (FL), pennation angle (PA), muscle thickness (MT)] was obtained at rest by ultrasound. The time from five sit-to-stand (STS) trials, and the distance from the six-minute walk test (6MWT) were obtained. Intraclass correlation coefficient was determined and classified as strong (r=0.75-1.00), moderate (r=0.40-0.74), and weak (r Results : Strong intra-rater reliability values were observed for strength (r=0.97), muscle activation [VL (r=0.91); RF (r=0.92); VM (r=0.80)], VL [FL (r=0.90); PA (r=0.94); MT (r=0.99)] and RF [MT (r=0.85)] muscle architecture, STS (r=0.95), and 6MWT (r=0.98). Inter-rater reliability also presented strong values for strength (r=0.97), muscle activation [VL (r=0.94); RF (r=0.79); VM (r=0.78)], muscle architecture VL [PA (r=0.81) and MT (r=0.88)] and RF [MT (r=0.80)], STS (r=0.93), and 6MWT (r=0.98). A moderate correlation VL muscle architecture [FL (r=0.69)]. Inter-analyzer muscle architecture reliability presented strong VL [FL (r=0.77); PA (r=0.76); MT (r=0.91)] and RF [MT (r=0.99)] values. Conclusion : The high intra and inter-rater and inter-analyzer reliability values for most variables is evidence that they can be used for clinical evaluation. Muscle architecture might need a longer training period by different raters and analyzers to increase reliability.