# Angle-specific stiffness profiles of the achilles tendon and Triceps surae muscles: a continuous characterization

**Authors:** Yasuhiro Kunita, Naoki Ikeda, Takuya Nishioka, Shota Yamaguchi, Ayumi Yoshikawa, Daiki Hajima, Naoko Yabuno, Kengo Harato, Takayuki Inami

PMC · DOI: 10.3389/fspor.2026.1728114 · Frontiers in Sports and Active Living · 2026-02-18

## TL;DR

This study examines how the Achilles tendon and calf muscles stiffen during passive stretching, revealing that the tendon responds earlier than the muscles.

## Contribution

The study provides a continuous characterization of angle-specific stiffness profiles of the Achilles tendon and triceps surae muscles during passive stretch.

## Key findings

- The Achilles tendon shows significant stiffness increases from 25° plantar flexion, earlier than the triceps surae muscles.
- The tendon's stiffness increases at a higher rate than the muscles across all measured angles.
- The tendon governs initial resistance during passive stretch, while muscles remain compliant until further stretched.

## Abstract

The stiffness of the triceps surae (TS) muscles during passive stretch has been increasingly studied using shear wave elastography (SWE). However, the continuous behavior of the Achilles tendon (AT) and its interaction with the TS muscles remain poorly understood, limiting understanding of tissue mechanics. This study aimed to characterize the angle-specific stiffness profiles of the individual TS muscles—the medial gastrocnemius (MG), lateral gastrocnemius (LG), and soleus (SOL)—and the AT during passive ankle dorsiflexion under identical experimental conditions. In this cross-sectional study, the ankles of 24 healthy university track and field athletes (age, 20.2 ± 1.3 years) were passively moved by a dynamometer from 30° of plantar flexion (PF) to 80% of maximum dorsiflexion (DF) at 1°/s (up to 25° DF). Shear wave velocity (SWV), an index of tissue stiffness, was measured at four sites (MG, LG, SOL, and AT). The percentage change in SWV from the −30° baseline was analyzed at 5° increments up to the neutral (0°) position using two-way analysis of variance. Significant SWV increases from baseline were observed at 10° PF for the MG, 5° PF for the LG, and 25° PF for the SOL. In contrast, the AT showed significant increases from 25° PF onward, with a rate of change consistently greater than that of all TS muscles across all measured angles. These findings indicate that the AT and TS exhibit asynchronous stiffening patterns: the tendon provides immediate resistance from the earliest range of motion, while the muscles remain compliant until further stretched. Thus, the tendon, rather than the muscle, primarily governs the initial resistive behavior of the muscle–tendon unit during passive stretch. Understanding this angle-specific behavior is essential for optimizing load management in rehabilitation and injury prevention.

## Full-text entities

- **Genes:** TTN (titin) [NCBI Gene 7273] {aka CMD1G, CMH9, CMPD4, CMYO5, CMYP5, EOMFC}
- **Diseases:** cardiovascular, (MESH:D002318), AT (MESH:D052256), AT injury (MESH:D013708), MG (MESH:D020423), LG (MESH:D010509), diabetic conditions (MESH:D003920), AT rupture (MESH:D012421), pain (MESH:D010146), overuse injuries (MESH:D012090), injury (MESH:D014947), cerebral palsy (MESH:D002547), systemic diseases (MESH:D034721), ankle or foot injury (MESH:D016512)
- **Chemicals:** steroids (MESH:D013256)
- **Species:** Homo sapiens (human, species) [taxon 9606]

## Full text

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## Figures

4 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12956305/full.md

## References

49 references — full list in the complete paper: https://tomesphere.com/paper/PMC12956305/full.md

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Source: https://tomesphere.com/paper/PMC12956305