Abstract
This study took shear wave elastography (SWE) technology to measure the shear wave velocity (SWV) of peripheral nerve in healthy population, which represents the stiffness of the peripheral nerves, and research whether these parameters (location, age, sex, body mass index (BMI), the thickness and cross-sectional area(CSA) of the nerve) would affect the stiffness of the peripheral nerves. 105 healthy volunteers were enrolled in this study. We recorded the genders and ages of these volunteers, measured height and weight, calculated BMI, measured nerve thickness and CSA using high-frequency ultrasound (HFUS), and then, we measured and compared the SWV of the right median nerve at the middle of the forearm and at the proximal entrance of the carpal tunnel. The SWV of the median nerve of the left side was measured to explore whether there exist differences of SWV in bilateral median nerve. Additionally, we also measured the SWV of the right tibial nerve at the ankle canal to test whether there is any difference in shear wave velocity between different peripheral nerves. This study found that there existed significant differences of SWV between different sites in one nerve and between different peripheral nerves. No significant difference was found in SWV between bilateral median nerves. Additionally, the SWV of peripheral nerves was associated with gender, while not associated with age or BMI. The mean SWV of the studied male volunteers in median nerve were significantly higher than those of female (p < 0.05). Peripheral nerve SWE measurement in healthy people is affected by different sites, different nerves and genders, and not associated with age, BMI, nerve thickness or CSA.
Highlights
This study took shear wave elastography (SWE) technology to measure the shear wave velocity (SWV) of peripheral nerve in healthy population, which represents the stiffness of the peripheral nerves, and research whether these parameters (location, age, sex, body mass index (BMI), the thickness and cross-sectional area(CSA) of the nerve) would affect the stiffness of the peripheral nerves. 105 healthy volunteers were enrolled in this study
We intended to apply SWE technology to explore whether parameters such as location, age, sex, body mass index (BMI), the thickness and CSA of the peripheral nerve can affect the stiffness of the median nerve and the tibial nerve through measuring the SWV in healthy population, which may provide the primary reference and objective evidence for SWE measurement in peripheral nerve disorders
We found a significant difference between two genders in nerve thickness and CSA (Table 5)
Summary
This study took shear wave elastography (SWE) technology to measure the shear wave velocity (SWV) of peripheral nerve in healthy population, which represents the stiffness of the peripheral nerves, and research whether these parameters (location, age, sex, body mass index (BMI), the thickness and cross-sectional area(CSA) of the nerve) would affect the stiffness of the peripheral nerves. 105 healthy volunteers were enrolled in this study. Some studies have preliminarily confirmed that SWE can objectively reflect the increase of in stiffness of nerve tissue in indentation testing[12] For such a new technology, there are relatively few studies on shear wave elastography of peripheral nerves, especially those addressing the methodology and influencing factors of peripheral nerve SWE in healthy people. We intended to apply SWE technology to explore whether parameters such as location, age, sex, body mass index (BMI), the thickness and CSA of the peripheral nerve can affect the stiffness of the median nerve and the tibial nerve through measuring the SWV in healthy population, which may provide the primary reference and objective evidence for SWE measurement in peripheral nerve disorders
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