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ABSTRACT
A ratio between the torque generated by maximal voluntary isometric contraction (MVIC) and exogenous electrical stimulus, central activation ratio (CAR), has been widely used to assess quadriceps function. To date, no data exist regarding between-session reliability of this measurement. Thirteen neurologically sound volunteers underwent three testing sessions (three trials per session) with 48 hours between-session. Subjects performed MVICs of the quadriceps with the knee locked at 90° flexion and the hip at 85°. Once the MVIC reached a plateau, an electrical stimulation from superimposed burst technique (SIB: 125 V with peak output current 450 mA) was manually delivered and transmitted directly to the quadriceps via stimulating electrodes. CAR was calculated by using the following equation: CAR = MVIC torque/MVIC + SIB torque. Intraclass correlation coefficients (ICC) were calculated within- (ICC(2,1)) and between-session (ICC(2,k)) for MVIC torques and CAR values. Our data show that quadriceps MVIC and CAR are very reliable both within- (ICC(2,1) = 0.99 for MVIC; 0.94 for CAR) and between-measurement sessions (ICC(2,k) = 0.92 for MVIC; 0.86 for CAR) in healthy young adults. For clinical research, more data of the patients with pathological conditions are required to ensure reproducibility of calculation of CAR.
Notice of Correction
The version of this article published online ahead of print on 10 OCT 2012 contained a number of minor typographical errors. These have been corrected for this version.