To avoid multicolinearity, only one of each length and circumfere

To avoid multicolinearity, only one of each length and circumference were chosen to be included in the primary equations. Forearm length (L3) was selected because it was highly correlated with torque for both males and females, and it is a measure of the lever length JAK2 inhibitors clinical trials during elbow flexion. Elbow circumference (ELB) was selected because it was highly correlated with torque for both males and females, and

includes the size of the elbow flexor muscles at the joint crossing. Once the equation for BW and L3 or ELB was determined, sEMG RMS was added to the equation to determine the contribution of muscle activation. The predictive value of three anthropometric variables was also assessed. As well, prediction equations were performed using the four length measurements with the addition of sEMG RMS, and the five circumference measurements with the addition of sEMG RMS, to determine the contribution of sEMG to each group of variables. For each equation, the R2 and partial R2 were calculated to determine the strength of the equation and the relative contribution of the added variable, respectively. The

standard error of the estimate (SEE) was calculated to help determine the benefit of adding another variable http://www.selleckchem.com/products/SB-431542.html versus the cost of decreasing the degrees of freedom associated with the specific equation. Finally, an F-ratio was calculated to determine if there was a significant (p < 0.05) increase in the variance accounted-for by an additional variable, relative to the benchmark equation. 12 The mean ± SD values for torque, sEMG RMS and anthropometric measurements are presented in Table 1. The results of the correlation matrix are presented in Table 2 and multiple linear regression analyses are presented in Table 3, for males and females, respectively. The initial prediction equation with only BW accounted for 39.1% and 27.3% of variance

in elbow flexion strength in males and females, respectively (Fig. 2). BW was the strongest strength predictor for males. The addition of L3 to the equation improved strength prediction for both males and females. Based on the partial R2, L3 was the strongest strength predictor for females accounting for 39.1% of the variance. The addition of ELB to the initial equation with BW improved the strength prediction for males with a significant however (p < 0.05) partial R2 of 12.5%; however, it had little effect on the equation for females. The best prediction equation for both males and females consisted of three anthropometric measures (BW, L3, and ELB), accounting for 55.6% and 58.5% of the total variance in strength, respectively ( Fig. 3). To compare lengths versus circumferences, overall prediction equations of all four lengths and all five circumferences were performed. In males, the circumferences were much stronger predictors compared to the lengths (R2 = 0.545 and 0.293, respectively).

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