Influence of overweight on the active and the passive fraction of the plantar flexors series elastic component in prepubertal children

Abstract

The influence of overweight, as a precursor to obesity, was analyzed on the elastic properties of the triceps surae. Based on body mass index (BMI), children (9 years ± 4 mo) were classified as control (CON; n = 23; BMI −1SD>Z score<1SD) or overweight (OW; n = 21, BMI 1SD>Z score<3SD) with regard to reference data from the World Health Organization. Musculotendinous (MT) stiffness of the series elastic component (SEC) was determined using quick-release tests to obtain 1) the MT stiffness index from the slope of either linear stiffness-torque (SIMT-Torque) or stiffness-EMG (SIMT-EMG) relationships and 2) passive stiffness from the intercept point with the ordinate. Finally, the SEC active (α0) and passive fractions (Cpassive) were separated as described by Morgan (Am J Physiol, 1977), using alpha-torque (α0-Torque,Cpassive-Torque) or alpha-EMG (α0-EMG,Cpassive-EMG) relationships. No significant differences in SIMT-Torqueor α0-Torquewere observed between OW and CON. SIMT-EMGor α0-EMGvalues were significantly different between OW and CON, which indicate an increase in MT stiffness. In all cases, passive stiffness (Kp, Cpassive-torque, Cpassive-EMG) was significantly greater in OW but independent of the activation capacities. These results indicate that a weight-related additional loading of the MT structures in OW children caused the MT system to response accordingly to the functional demand, i.e., higher stiffness of the MT structures due to a concomitant increase in the stiffness of the SEC passive and active fraction. This study also reveals that possible differences in the activation capacities influence the determination of MT stiffness of the SEC active fraction.