Characterization of Flexor Digitorum Superficialis Muscle Stiffness Using Ultrasound Shear Wave Elastography and MyotonPRO: A Cross-Sectional Study Investigating the Correlation between Different Approaches

Tantipoon, Phongpan; Praditpod, Nuttaporn; Pakleppa, Markus; Li, Chunhui; Huang, Zhihong

doi:10.3390/app13116384

Applied Sciences

2023

DOI: 10.3390/app13116384

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Characterization of Flexor Digitorum Superficialis Muscle Stiffness Using Ultrasound Shear Wave Elastography and MyotonPRO: A Cross-Sectional Study Investigating the Correlation between Different Approaches

Phongpan Tantipoon

Nuttaporn Praditpod

Markus Pakleppa

et al.

Abstract: Muscle stiffness provides a key insight toward clinical assessment for rehabilitation. Regarding the high-cost and technical skill requirement of ultrasound shear wave elastography (SWE) restricting extensive clinical use, MyotonPRO has been proposed as a complementary tool for muscle stiffness measurement. There is a deficiency of studies revealing the use of this tool for measuring muscle stiffness contributing to hand control. The purpose of this study was to assess the capability and effectiveness of Myoto… Show more

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2024

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Cited by 2 publications

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The Agreement and Correlation Between Shear-Wave Elastography, Myotonometry, and Passive Joint Stiffness Measurements: A Brief Review

Ličen,

Opara,

Kozinc

2024

SN Compr. Clin. Med.

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This brief review article was conducted to summarize the findings regarding correlation and agreement between different methods to assess muscle stiffness (shear wave elastography (SWE), myotonometry, and passive joint stiffness measurements). Muscle stiffness, an important biomechanical characteristic, influences joint flexibility, postural stability, injury risk, and athletic performance. SWE provides insights into tissue elasticity by measuring the propagation speed of shear waves, while myotonometry assesses stiffness through induced muscle oscillations. Passive joint stiffness measurements offer a holistic perspective, capturing the resistance of the entire joint to movement. However, distinguishing the contributions of muscular and non-muscular tissues remains a challenge in this method. The article highlights the variability in the correlation between these methodologies, influenced by factors such as muscle length, age, and examiner technique. While some studies report good agreement between SWE and myotonometry, others note discrepancies, underscoring the need for careful method selection based on the research or clinical context. This review highlights the complexity of assessing muscle stiffness and the necessity of a nuanced approach in interpreting data from different measurement techniques, aiming to guide researchers and clinicians in their choice of method for a precise and accurate evaluation of muscle stiffness.

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The Agreement and Correlation Between Shear-Wave Elastography, Myotonometry, and Passive Joint Stiffness Measurements: A Brief Review

Ličen,

Opara,

Kozinc

2024

SN Compr. Clin. Med.

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show abstract

Exploring the interplay between body mass index and passive muscle properties in relation to grip strength and jump performance in female university students

Pérez,

Urrejola-Contreras,

Alvarez

et al. 2024

PeerJ

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Background Women typically have a higher body fat content than men. Fat accumulation is associated with muscle weakness and alterations in mechanical properties. This study aims to determine the relationship between BMI and weight status with the mechanical properties of muscle and tendon. It was hypothesized that the stiffness and tone of the forearm muscle and Achilles tendon would be correlated with weight status and BMI. Methods A cross-sectional study was conducted with 136 female university students. Grip strength was assessed using a dynamometer, body composition was analyzed through bioimpedance, and countermovement jump performance was evaluated with a force platform. Stiffness and tone were measured using the MyotonPro device. ANOVA was used to compare grip strength and countermovement jump performance according to body composition. The Pearson correlation coefficient was used to examine bivariate associations. Results Relative grip strength decreased with an increase in fat content, while forearm muscle stiffness and tone decreased with rising weight status and BMI. Stiffness of the Achilles tendon increased with an increase in fat content and showed a significant positive correlation with BMI. Multiple regression analysis revealed a weak correlation between BMI, body composition, and stiffness of the forearm muscles. Conclusion The results of this study support the notion that the stiffness of the forearm muscles and Achilles tendon is correlated with BMI in young adult women. Furthermore, an increase in body fat percentage is linked to a decrease in mechanical properties and poorer muscle function.

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Characterization of Flexor Digitorum Superficialis Muscle Stiffness Using Ultrasound Shear Wave Elastography and MyotonPRO: A Cross-Sectional Study Investigating the Correlation between Different Approaches

Cited by 2 publications

References 71 publications

The Agreement and Correlation Between Shear-Wave Elastography, Myotonometry, and Passive Joint Stiffness Measurements: A Brief Review

The Agreement and Correlation Between Shear-Wave Elastography, Myotonometry, and Passive Joint Stiffness Measurements: A Brief Review

Exploring the interplay between body mass index and passive muscle properties in relation to grip strength and jump performance in female university students

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