过载对椎间盘渗透弹性和恢复行为的影响。

IF 1.7 4区 医学 Q3 ENGINEERING, BIOMEDICAL
Faten Feki, Rym Taktak, Nader Haddar, Melissa Moulart, Fahmi Zaïri, Fahed Zaïri
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引用次数: 0

摘要

很少有体外研究调查高生理压缩负荷对椎间盘力学及其恢复的影响。此外,渗透压对超负荷后椎间盘粘弹性行为的影响也远未得到研究。本研究旨在确定超过生理极限的压缩加载-卸载循环是否会对颈椎间盘造成损害,并研究这种超载效应的化学机械依赖性。在高生理水平(位移 2.5 毫米)下对颈椎功能单元进行压缩加载-卸载循环。通过在循环加载前后进行的两次松弛测试,评估了超载对椎间盘粘弹性行为的影响。之后,椎间盘在休息期间在盐水浴中卸载,并通过第三次松弛测试评估其恢复反应。通过在外部液体浴中使用三种不同浓度的生理盐水来重复这一方案,进一步研究了椎间盘反应中的化学机械耦合。结果发现,超负荷会明显改变椎间盘的粘弹性反应,其变化在统计学上取决于渗透压条件。所施加的超生理压缩循环不会造成损伤,因为椎间盘在休息一段时间后会恢复其原有的粘弹性行为。渗透加载只影响加载-卸载反应;具体来说,增加液体渗透压会导致椎间盘在加载循环后松弛程度降低。但是,椎间盘的恢复不受外部液体渗透压的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Overloading effect on the osmo-viscoelastic and recovery behavior of the intervertebral disc.

In vitro studies investigating the effect of high physiological compressive loads on the intervertebral disc mechanics as well as on its recovery are rare. Moreover, the osmolarity effect on the disc viscoelastic behavior following an overloading is far from being studied. This study aims to determine whether a compressive loading-unloading cycle exceeding physiological limits could be detrimental to the cervical disc, and to examine the chemo-mechanical dependence of this overloading effect. Cervical functional spine units were subjected to a compressive loading-unloading cycle at a high physiological level (displacement of 2.5 mm). The overloading effect on the disc viscoelastic behavior was evaluated through two relaxation tests conducted before and after cyclic loading. Afterward, the disc was unloaded in a saline bath during a rest period, and its recovery response was assessed by a third relaxation test. The chemo-mechanical coupling in the disc response was further examined by repeating this protocol with three different saline concentrations in the external fluid bath. It was found that overloading significantly alters the disc viscoelastic response, with changes statistically dependent on osmolarity conditions. The applied hyper-physiological compressive cycle does not cause damage since the disc recovers its original viscoelastic behavior following a rest period. Osmotic loading only influences the loading-unloading response; specifically, increasing fluid osmolarity leads to a decrease in disc relaxation after the applied cycle. However, the disc recovery is not impacted by the osmolarity of the external fluid.

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来源期刊
CiteScore
3.60
自引率
5.60%
发文量
122
审稿时长
6 months
期刊介绍: The Journal of Engineering in Medicine is an interdisciplinary journal encompassing all aspects of engineering in medicine. The Journal is a vital tool for maintaining an understanding of the newest techniques and research in medical engineering.
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