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应变和年龄对大鼠跟腱力学性能的影响。

The effect of strain and age on the mechanical properties of rat Achilles tendons.

作者信息

Vafek Emily C, Plate Johannes F, Friedman Eric, Mannava Sandeep, Scott Aaron T, Danelson Kerry A

机构信息

Department of Orthopaedic Surgery, Wake Forest School of Medicine, Winston-Salem, USA.

出版信息

Muscles Ligaments Tendons J. 2018 Jan 10;7(3):548-553. doi: 10.11138/mltj/2017.7.3.548. eCollection 2017 Jul-Sep.

DOI:10.11138/mltj/2017.7.3.548
PMID:29387650
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5774930/
Abstract

BACKGROUND

Achilles tendon (AT) ruptures are common in the middle age population; however, the pathophysiology and influence of age on AT ruptures is not fully understood. This study evaluates the effect and interactions between, strain and age on the biomechanical properties of ATs.

METHODS

Bilateral ATs were harvested from 17 young (8 months) and 14 middle-aged (24 months) rats and underwent stress-relaxation using Fung's quasilinear viscoelastic (QLV) modeling and load-to-failure testing.

RESULTS

The initial viscoelastic response (parameter B) in middle-age animals was dependent on the amount of strain applied to the tendon and was significantly increased in middle-aged animals at higher strain. Higher strain in older animals led to a prolonged relaxation time (parameter tau 2). There was a trend toward an increased magnitude of the relaxation response (parameter C) at higher strain in the middle-aged animals. Middle-aged animals had a significantly lower mean stress at ultimate failure (p=0.01), while Young's modulus was similar in both groups (p=0.46).

CONCLUSIONS

The passive biomechanical properties of the rat AT change with age and the influence stress-relaxation response of the AT, thereby possibly predisposing the AT of older animals to fail at lower loads compared to younger animals.

LEVEL OF EVIDENCE

Not applicable, this is a basic science study.

摘要

背景

跟腱断裂在中年人群中很常见;然而,跟腱断裂的病理生理学以及年龄对其的影响尚未完全明确。本研究评估应变和年龄对跟腱生物力学特性的影响及相互作用。

方法

从17只年轻(8个月)和14只中年(24个月)大鼠身上获取双侧跟腱,并使用冯氏准线性粘弹性(QLV)模型进行应力松弛测试以及破坏载荷测试。

结果

中年动物的初始粘弹性反应(参数B)取决于施加在肌腱上的应变大小,并且在较高应变下中年动物的该反应显著增加。老年动物中较高的应变导致松弛时间延长(参数tau 2)。中年动物在较高应变下松弛反应的幅度(参数C)有增加的趋势。中年动物在最终破坏时的平均应力显著更低(p = 0.01),而两组的杨氏模量相似(p = 0.46)。

结论

大鼠跟腱的被动生物力学特性随年龄变化,影响跟腱的应力松弛反应,从而可能使老年动物的跟腱相比于年轻动物在更低载荷下发生断裂。

证据水平

不适用,这是一项基础科学研究。

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