Department of Human Locomotion, Chemnitz University of Technology, Chemnitz, Germany.
Physiol Meas. 2020 Oct 6;41(9):095010. doi: 10.1088/1361-6579/abb4b3.
There is an increasing interest in the application of oscillation-based measurement techniques to evaluate the mechanical stiffness of healthy and diseased tendons. These techniques measure the stiffness of a tendon indirectly by registering the oscillation response of a tendon to an external mechanical impulse. Although these measurement techniques seem to be comparatively easy and time-saving, their applicability is implicitly limited by their indirect measurement principle.
In this study, we aim to find evidence that the oscillation response of a tendon to an external mechanical impulse is not only affected by the stiffness of a tendon but also by the tendons' cross-sectional area (CSA), length, and tension. Therefore, we reviewed the current literature on oscillation-based techniques that measure in vivo tendon properties. Further, a phantom material was used to mimic the nature of tendons and to test the impact of four factors on oscillation-based measurements.
Our results indicate that the mechanical properties, geometrical dimensions (length and CSA), and tensional state affect oscillation-based measures. Surprisingly, most studies on tendon behavior often exclusively associate their oscillation-based measurements with the mechanical stiffness of a tendon.
While this narrow perspective bears the risk of misinterpretation or false implications, a broader understanding of oscillation-based measurements has the potential to shed new light on the interaction of muscles and tendons in vivo.
越来越多的人对应用基于振动的测量技术来评估健康和患病肌腱的机械刚度感兴趣。这些技术通过记录肌腱对外部机械脉冲的振动响应来间接测量肌腱的刚度。尽管这些测量技术似乎相对简单且省时,但由于其间接测量原理,其适用性受到隐含限制。
在这项研究中,我们旨在寻找证据表明,肌腱对外部机械脉冲的振动响应不仅受肌腱刚度的影响,还受肌腱的横截面积(CSA)、长度和张力的影响。因此,我们回顾了目前关于基于振动技术测量活体肌腱特性的文献。此外,还使用了一种模拟肌腱性质的仿体材料来测试四个因素对基于振动的测量的影响。
我们的结果表明,力学性能、几何尺寸(长度和 CSA)和张力状态会影响基于振动的测量。令人惊讶的是,关于肌腱行为的大多数研究通常仅将其基于振动的测量与肌腱的机械刚度相关联。
虽然这种狭隘的观点存在误解或错误推论的风险,但更广泛地理解基于振动的测量有可能揭示肌肉和肌腱在体内相互作用的新情况。
