Time‐dependent diffusion tensor imaging and diffusion modeling of age‐related differences in the medial gastrocnemius and feasibility study of correlations to histopathology

Abstract

AbstractPurposeImplement STEAM‐DTI to model time‐dependent diffusion eigenvalues using the random permeable barrier model (RPBM) to study age‐related differences in the medial gastrocnemius (MG) muscle. Validate diffusion model‐extracted fiber diameter for histological assessment.MethodsDiffusion imaging at different diffusion times (Δ) was performed on seven young and six senior participants. Time‐dependent diffusion eigenvalues (λ2(t), λ3(t), and D⊥(t); average of λ2(t) and λ3(t)) were fit to the RPBM to extract tissue microstructure parameters. Biopsy of the MG tissue for histological assessment was performed on a subset of participants (four young, six senior).Resultsλ3(t) was significantly higher in the senior cohort for the range of diffusion times. RPBM fits to λ2(t) yielded fiber diameters in agreement to those from histology for both cohorts. The senior cohort had lower values of volume fraction of membranes, ζ, in fits to λ2(t), λ3(t), and D⊥(t) (significant for fit to λ3(t)). Fits of fiber diameter from RPBM to that from histology had the highest correlation for the fit to λ2(t).ConclusionThe age‐related patterns in λ2(t) and λ3(t) could tentatively be explained from RPBM fits; these patterns may potentially arise from a decrease in fiber asymmetry and an increase in permeability with age.