Reliability and Accuracy of a Time-Efficient Method for the Assessment of Achilles Tendon Mechanical Properties by Ultrasonography.
Steve HunterJulian WerthDarren JamesYiannis LambrianidesKenton SmithKiros KaramanidisGaspar EproPublished in: Sensors (Basel, Switzerland) (2022)
The assessment of the force-length relationship under mechanical loading is widely used to evaluate the mechanical properties of tendons and to gain information about their adaptation, function, and injury. This study aimed to provide a time-efficient ultrasound method for assessing Achilles tendon mechanical properties. On two days, eleven healthy young non-active adults performed eight maximal voluntary isometric ankle plantarflexion contractions on a dynamometer with simultaneous ultrasonographic recording. Maximal tendon elongation was assessed by digitizing ultrasound images at rest and at maximal tendon force. Achilles tendon stiffness index was calculated from the ratio of tendon force-to-strain. No within- and between-day differences were detected between the proposed method and manual frame by frame tracking in Achilles tendon maximal force, maximal elongation, maximal strain, and stiffness index. The overall coefficient of variation between trials ranged from 3.4% to 10.3% and average difference in tendon tracking between methods was less than 0.6% strain. Furthermore, an additional assessment demonstrated significant differences between elite athletes, healthy young, and older adults in Achilles tendon force and stiffness index. Hence, the analysis has the potential to reliably and accurately monitor changes in Achilles tendon mechanical properties due to aging and altered mechanical loading in a time-efficient manner.
Keyphrases
- resistance training
- heart rate
- single molecule
- body composition
- magnetic resonance imaging
- anterior cruciate ligament reconstruction
- rotator cuff
- high intensity
- physical activity
- magnetic resonance
- healthcare
- optical coherence tomography
- middle aged
- social media
- risk assessment
- health information
- diffusion weighted imaging
- climate change
- contrast enhanced