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J Mech Behav Biomed Mater. 2023 Jun;142:105827. doi: 10.1016/j.jmbbm.2023.105827. Epub 2023 Apr 6.
3
A Friction Testing-Bioreactor Device for Study of Synovial Joint Biomechanics, Mechanobiology, and Physical Regulation.用于研究滑液关节生物力学、机械生物学和物理调节的摩擦测试-生物反应器装置。
J Vis Exp. 2022 Jun 2(184). doi: 10.3791/63880.
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A Finite Element Algorithm for Large Deformation Biphasic Frictional Contact Between Porous-Permeable Hydrated Soft Tissues.多孔可渗透含水软组织大变形双相摩擦接触的有限元算法。
J Biomech Eng. 2022 Feb 1;144(2). doi: 10.1115/1.4052114.
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Immature bovine cartilage wear by fatigue failure and delamination.疲劳失效和分层导致未成熟牛软骨磨损。
J Biomech. 2020 Jun 23;107:109852. doi: 10.1016/j.jbiomech.2020.109852. Epub 2020 May 19.
6
Lubricin binds cartilage proteins, cartilage oligomeric matrix protein, fibronectin and collagen II at the cartilage surface.润滑素结合软骨表面的软骨蛋白、软骨寡聚基质蛋白、纤维连接蛋白和 II 型胶原。
Sci Rep. 2017 Oct 13;7(1):13149. doi: 10.1038/s41598-017-13558-y.
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Interaction of lubricin with type II collagen surfaces: adsorption, friction, and normal forces.润滑素与 II 型胶原表面的相互作用:吸附、摩擦和法向力。
J Biomech. 2014 Feb 7;47(3):659-66. doi: 10.1016/j.jbiomech.2013.11.048. Epub 2013 Dec 11.
10
Role of lubricin and boundary lubrication in the prevention of chondrocyte apoptosis.润滑素和边界润滑在预防软骨细胞凋亡中的作用。
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滑液的一个主要功能是降低周期性压缩负荷下软骨疲劳失效的速率。

A major functional role of synovial fluid is to reduce the rate of cartilage fatigue failure under cyclical compressive loading.

作者信息

Sise C V, Petersen C A, Ashford A K, Yun J, Zimmerman B K, Vukelic S, Hung C T, Ateshian G A

机构信息

Department of Biomedical Engineering, Columbia University, New York, NY, United States.

Department of Mechanical Engineering, Columbia University, New York, NY, United States.

出版信息

Osteoarthritis Cartilage. 2025 Jan;33(1):94-100. doi: 10.1016/j.joca.2024.08.008. Epub 2024 Aug 28.

DOI:10.1016/j.joca.2024.08.008
PMID:39209247
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11663120/
Abstract

OBJECTIVE

Based on our recent study, which showed that cartilage fatigue failure in reciprocating sliding contact results from cyclical compressive forces, not from cyclical frictional forces, we hypothesize that a major functional role for synovial fluid (SF) is to reduce the rate of articular cartilage fatigue failure from cyclical compressive loading.

DESIGN

The rate of cartilage fatigue failure due to repetitive compressive loading was measured by sliding a glass lens against an immature bovine cartilage tibial plateau strip immersed in mature bovine SF, phosphate-buffered saline (PBS), or SF/PBS dilutions (50% SF and 25% SF; n = 8 for all four bath conditions). After 24 h of reciprocating sliding (5400 cycles), samples were visually assessed, and if damage was observed, the test was terminated; otherwise, testing was continued for 72 h (16,200 cycles), with solution refreshed daily.

RESULTS

All eight samples in the PBS group exhibited physical damage after 24 h, with an average final surface roughness of R= 0.210 ± 0.067 mm. The SF group showed no damage after 24 h; however, two of eight samples became damaged after 72 h, producing a significantly lower average surface roughness than the PBS group (R=0.059 ± 0.030 mm; p < 10). For the remaining groups, at 72 h, one of eight samples was damaged in the 50% SF group, and five of eight samples were damaged in the 25% SF group.

CONCLUSIONS

The results strongly support our hypothesis, showing that decreased amounts of SF in the testing bath produce increased rates of fatigue failure in cartilage that was subjected to reciprocating sliding contact.

摘要

目的

基于我们最近的研究,该研究表明往复滑动接触中的软骨疲劳失效是由周期性压缩力引起的,而非周期性摩擦力,我们推测滑液(SF)的一个主要功能作用是降低周期性压缩负荷导致的关节软骨疲劳失效速率。

设计

通过将玻璃透镜与浸泡在成熟牛滑液、磷酸盐缓冲盐水(PBS)或滑液/磷酸盐缓冲盐水稀释液(50%滑液和25%滑液;四种浴液条件下每组n = 8)中的未成熟牛软骨胫骨平台条进行滑动,测量重复压缩负荷导致的软骨疲劳失效速率。在进行24小时往复滑动(5400次循环)后,对样本进行视觉评估,若观察到损伤,则终止试验;否则,试验持续72小时(16200次循环),每天更换溶液。

结果

PBS组的所有八个样本在24小时后均出现物理损伤,最终平均表面粗糙度为R = 0.210±0.067毫米。滑液组在24小时后未出现损伤;然而,八个样本中有两个在72小时后出现损伤,其平均表面粗糙度显著低于PBS组(R = 0.059±0.030毫米;p < 10)。对于其余组,在72小时时,50%滑液组的八个样本中有一个出现损伤,25%滑液组的八个样本中有五个出现损伤。

结论

结果有力地支持了我们的假设,表明试验浴液中滑液量的减少会使经受往复滑动接触的软骨疲劳失效速率增加。