Abstract

Changes in fascicle length and tension of the soleus (SOL) muscle have been observed in humans using B-mode ultrasound to examine the knee from different angles. An alternative technique of assessing muscle and tendon stiffness is myometry, which is non-invasive, accessible, and easy to use. This study aimed to estimate the compressive stiffness of the distal SOL and Achilles tendon (AT) using myometry in various knee and ankle joint positions. Twenty-six healthy young males were recruited. The Myoton-PRO device was used to measure the compressive stiffness of the distal SOL and AT in the dominant leg. The knee was measured in two positions (90 degrees of flexion and 0 degrees of flexion) and the ankle joint in three positions (10 degrees of dorsiflexion, neutral position, and 30 degrees of plantar flexion) in random order. A three-way repeated-measures ANOVA test was performed. Significant interactions were found for structure x ankle position, structure x knee position, and structure x ankle position x knee position (p 0.05). The AT and SOL showed significant increases in compressive stiffness with knee extension over knee flexion for all tested ankle positions (p 0.05). Changes in stiffness relating to knee positioning were larger in the SOL than in the AT (p 0.05). These results indicate that knee extension increases the compressive stiffness of the distal SOL and AT under various ankle joint positions, with a greater degree of change observed for the SOL. This study highlights the relevance of knee position in passive stiffness of the SOL and AT.