Characterization of muscle architecture in children and adults using magnetic resonance elastography and ultrasound techniques

The purpose of this study is to characterize the muscle architecture of children and adults using magnetic resonance elastography and ultrasound techniques. Five children (8-12 yr) and seven adults (24-58 yr) underwent both tests on the vastus medialis muscle at relaxed and contracted (10% and 20% of MVC) states. Longitudinal ultrasonic images were performed in the same area as the phase image showing the shear wave's propagation. Two geometrical parameters were defined: the wave angle (alpha_(MRE)) corresponding to the shear wave propagation and the fascicule angle (alpha_(US)) tracking the path of fascicles. Moreover, shear modulus was measured at different localizations within the muscle and in the subcutaneous adipose tissue. The association of both techniques demonstrates that the shear wave propagation follows the muscle fascicles path, reflecting the internal muscle architecture. At rest, ultrasound images revealed waves propagating parallel to the children fascicle while adults showed oblique waves corresponding to already oriented (alpha_(US)=15.4 +/- 2.54 degrees) muscle fascicles. In contraction, the waves' propagation were in an oblique direction for children (alpha_(US)_(10%MVC)=10.6 + 2.27 degrees, alpha_(US)_(20%MVC)=10.2 + 2.29 degrees) as well as adults (alpha_(US)_(10%MVC)=.15.4 +/- 2.54 degrees, alpha_(US)_(20%MVC)= 17.2 +/- 2.44 degrees). A stiffness variation (1 kPa) was found between the upper and lower parts of the adult VM muscle and a lower stiffness (1.85 +/- 0.17 kPa) was measured in the subcutaneous adipose tissue. This study demonstrates the feasibility of the MRE technique to provide geometrical insights from the children and adults muscles and to characterize different physiological media. (C) 2010 Elsevier Ltd. All rights reserved.