Shear wave propagation in the Achilles subtendons is modulated by helical twist and non-uniform loading
Jonathon Blank, Lauren Welte, Jack Martin, Darryl Thelen

TL;DR
This study investigates how helical twist and uneven loading affect shear wave speeds in the Achilles tendon's subtendons using a computer model.
Contribution
The study reveals how helical twist and non-uniform loading influence shear wave propagation in Achilles subtendons using a finite element model.
Findings
Helical subtendon twist had little effect on shear wave propagation speed.
A two-fold stress differential modulated wave speed-axial stress relationships based on adjacent tension and twist.
Findings explain variability in shear wave tensiometry measurements in Achilles tendons.
Abstract
The triceps surae is composed of the medial gastrocnemius, lateral gastrocnemius and soleus muscles. Each muscle inserts onto a subtendon that undergoes helical twist prior to insertion onto the calcaneus. Shear wave tensiometry is a non-invasive technique to gauge Achilles tendon loading, yet it is unknown whether subtendon loading can be resolved using subtendon-specific shear wave speeds. The objective of this study was to examine shear wave propagation in the lateral gastrocnemius, medial gastrocnemius and soleus subtendons of the free Achilles tendon. We expected to show that the helical arrangements of subtendons within the Achilles would modulate wave propagation, and that non-uniform loading between subtendons would elicit nonuniform wave propagation. We created a finite element model of the Achilles tendon and simulated shear wave propagation. We found that helical subtendon…
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Taxonomy
TopicsTendon Structure and Treatment · Elasticity and Material Modeling · Sports injuries and prevention
