BACKGROUND: Magnetic resonance elastography has been performed in healthy and pathological muscles in order to provide clinicians with quantitative muscle stiffness data. However, there is a lack of data on pediatric muscle. Therefore, the present work studies age-related changes of the mechanical properties. METHODS: 26 healthy subjects composed of 7 children (8-12 years), 9 young adults (24-29 years) and 10 middle-aged adults (53-58 years) underwent a magnetic resonance elastography test. Shear modulus (μ) and its spatial distribution, as well as the attenuation coefficient (α) were measured on the vastus medialis muscle at rest and at contracted conditions (10% and 20% of the maximum voluntary contraction) for each group. FINDINGS: The shear modulus linearly increases with the degree of contraction for young adults while it is maximum at 10% of the maximum voluntary contraction for children (μ_(children_10%)=14.9kPa (SD 2.18)) and middle-aged adults (μ_(middle-aged_10%)=10.42kPa (SD 1.38)). Mapping of shear modulus revealed a diffuse distribution of colors reflecting differences in muscle physiological activity as a function of age. The attenuation coefficient showed a similar behavior for all groups, i.e. a decrease from the relaxed to the contracted states. INTERPRETATION: This study demonstrates that the magnetic resonance elastography technique is sensitive enough to detect changes in muscle mechanical properties for children, middle-aged and young adults and could provide clinicians with a muscle reference data base as a function of age, improving the diagnosis of muscular dystrophy.
BACKGROUND: Magnetic resonance elastography has been performed in healthy and pathological muscles in order to provide clinicians with quantitative muscle stiffness data. However, there is a lack of data on pediatric muscle. Therefore, the present work studies age-related changes of the mechanical properties. METHODS: 26 healthy subjects composed of 7 children (8-12 years), 9 young adults (24-29 years) and 10 middle-aged adults (53-58 years) underwent a magnetic resonance elastography test. Shear modulus (μ) and its spatial distribution, as well as the attenuation coefficient (α) were measured on the vastus medialis muscle at rest and at contracted conditions (10% and 20% of the maximum voluntary contraction) for each group. FINDINGS: The shear modulus linearly increases with the degree of contraction for young adults while it is maximum at 10% of the maximum voluntary contraction for children (μ_(children_10%)=14.9kPa (SD 2.18)) and middle-aged adults (μ_(middle-aged_10%)=10.42kPa (SD 1.38)). Mapping of shear modulus revealed a diffuse distribution of colors reflecting differences in muscle physiological activity as a function of age. The attenuation coefficient showed a similar behavior for all groups, i.e. a decrease from the relaxed to the contracted states. INTERPRETATION: This study demonstrates that the magnetic resonance elastography technique is sensitive enough to detect changes in muscle mechanical properties for children, middle-aged and young adults and could provide clinicians with a muscle reference data base as a function of age, improving the diagnosis of muscular dystrophy.
Authors: Joline E Brandenburg; Sarah F Eby; Pengfei Song; Heng Zhao; Jeffrey S Brault; Shigao Chen; Kai-Nan An Journal: Arch Phys Med Rehabil Date: 2014-07-24 Impact factor: 3.966
Authors: Hee Kyung Kim; Diana M Lindquist; Suraj D Serai; Yogesh K Mariappan; Lily L Wang; Arnold C Merrow; Kiaran P McGee; Richard L Ehman; Tal Laor Journal: Radiol Clin North Am Date: 2013-07 Impact factor: 2.303
Authors: Sarah F Eby; Beth A Cloud; Joline E Brandenburg; Hugo Giambini; Pengfei Song; Shigao Chen; Nathan K LeBrasseur; Kai-Nan An Journal: Clin Biomech (Bristol, Avon) Date: 2014-11-29 Impact factor: 2.063