Background
Strain rate (SR) is a measure of the rate of regional deformation that can be computed by analyzing velocity‐encoded phase‐contrast 2D images. Recent studies have explored the changes in normal components of the strain tensor in aging muscle, while shear strain may also provide valuable information.
Purpose
To compute the shear SR from velocity‐encoded MRI of the lower leg and to study the correlation of SR parameters measured in the medial gastrocnemius (MG) to muscle force in a cohort of young and senior subjects.
Study Type
Prospective cohort study.
Subjects
Six young (26.1 ± 2.3 years) and six senior (76.7 ± 8.3 years) healthy females; two other subjects were scanned on three separate occasions for repeatability studies.
Field Strength/Sequence
1.5T using a single oblique sagittal slice with velocity‐encoding in three directions (velocity‐encoded phase contrast gradient echo sequence).
Assessment
Age‐related and regional differences in the SR eigenvalues (SRfiber, SRin‐plane), normal SRs (SRff, SRcc), and shear SRs (SRfc, SRfc_max) were statistically analyzed.
Statistical Tests
Difference between young and senior cohorts were assessed using two‐way analysis of variance (ANOVAs). The coefficient of variation and repeatability coefficient were calculated from repeat studies. Univariate and stepwise multivariable linear regression was performed to identify predictors of force.
Results
During isometric plantarflexion contraction, SRs in the principal basis (SRfiber, SRin‐plane) and maximum shear SR (SRfc_max) was significantly lower in the senior cohort (P < 0.05). On multiple variable regression, maximum shear SR (SRfc_max) and normal SR in the fiber cross‐section (SRcc) were significantly associated with force (R = 0.681, F = 14.034, P < 0.001).
Data Conclusion
This study establishes that computation of shear strain is feasible and is a significant predictor of force variability with age.
Level of Evidence: 2
Technical Efficacy: Stage 2
J. Magn. Reson. Imaging 2018;47:1351–1357.