在兔前交叉韧带横断模型中，通过微生物力学改变揭示的半月板早期退变

Early degeneration of the meniscus revealed by microbiomechanical alteration in a rabbit anterior cruciate ligament transection model.

作者信息

Liang Ting, Jiang Hua-Ye, Li Hai-Tao, Che Yan-Jun, Yang Hui-Lin, An Kai-Nan, Luo Zong-Ping

机构信息

Department of Orthopaedics, The First Affiliated Hospital of Soochow University, Suzhou, Jiangsu, China.

Orthopaedic Institute, Medical College, Soochow University, Suzhou, Jiangsu, China.

出版信息

J Orthop Translat. 2019 Aug 8;21:146-152. doi: 10.1016/j.jot.2019.06.003. eCollection 2020 Mar.

DOI:10.1016/j.jot.2019.06.003

PMID:32309140

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7152828/

Abstract

BACKGROUND

The microbiomechanical properties of the meniscus influence the cell response to the surrounding biomechanical environment and are beneficial to understand meniscus repairing and healing. To date, however, this information remains ambiguous. This study aims to characterise the microbiomechanical properties of the meniscus after degeneration in a rabbit anterior cruciate ligament transection (ACLT) model and to analyse the corresponding histology at the macroscale and chemical composition.

METHODS

Twenty New Zealand white rabbits were used. Menisci were collected from the knee joints 4 and 8 weeks after the ACLT and from those of the corresponding control groups. The central portions of both medial and lateral menisci were investigated using atomic force microscopy, histological study, and an energy-dispersive spectrometer. The evaluation was conducted regionally within the inner, middle, and outer sites from the top layer (facing the femoral surface) to the bottom layer (facing the tibial surface) in both the lateral and medial menisci to obtain the site-dependent properties.

RESULTS

At 4 weeks after surgery, the dynamic elastic modulus at the microlevel increased significantly at both the top and bottom layers compared with the intact meniscus (P = 0.021). At 8 weeks after surgery, the stiffening occurred in all regions (P = 0.030). The medial meniscus showed greater change than the lateral meniscus. All these microbiomechanical alterations occurred before the histological findings at the macroscale.

CONCLUSION

The microbiomechanical properties in the meniscus changed significantly after ACLT and were site dependent. Their alterations occurred before the histological changes of degeneration were observed.

THE TRANSLATIONAL POTENTIAL OF THIS ARTICLE

The results of our study indicated that degeneration promoted meniscus stiffening. Thus, they provide a better understanding of the disease process affecting the meniscus. Our results might be beneficial to understand how mechanical forces distribute throughout the healthy and pathologic joint. They indicate the possibility of early diagnosis using a minimally invasive arthroscopic tool, as well as they might guide treatment to the healthy and pathologic meniscus and joint.

摘要

背景

半月板的微生物力学特性会影响细胞对周围生物力学环境的反应，有助于理解半月板的修复和愈合。然而，迄今为止，这些信息仍不明确。本研究旨在表征兔前交叉韧带切断（ACLT）模型退变后半月板的微生物力学特性，并在宏观尺度上分析相应的组织学和化学成分。

方法

使用20只新西兰白兔。在ACLT术后4周和8周以及相应对照组的膝关节中采集半月板。使用原子力显微镜、组织学研究和能量色散光谱仪对内侧和外侧半月板的中央部分进行研究。在外侧和内侧半月板从顶层（面向股骨表面）到底层（面向胫骨表面）的内部、中间和外部区域进行区域评估，以获得部位依赖性特性。

结果

术后4周，与完整半月板相比，顶层和底层的微观动态弹性模量均显著增加（P = 0.021）。术后8周，所有区域均出现硬化（P = 0.030）。内侧半月板的变化比外侧半月板更大。所有这些微生物力学改变均发生在宏观组织学发现之前。

结论

ACLT后半月板的微生物力学特性发生显著变化，且具有部位依赖性。它们的改变发生在观察到退变的组织学变化之前。

本文的转化潜力

我们的研究结果表明退变促进了半月板硬化。因此，它们有助于更好地理解影响半月板的疾病过程。我们的结果可能有助于理解机械力如何在健康和病理关节中分布。它们表明使用微创关节镜工具进行早期诊断的可能性，也可能指导对健康和病理半月板及关节的治疗。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a231/7152828/cefe5870454f/gr1.jpg

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在兔前交叉韧带横断模型中，通过微生物力学改变揭示的半月板早期退变

Early degeneration of the meniscus revealed by microbiomechanical alteration in a rabbit anterior cruciate ligament transection model.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

THE TRANSLATIONAL POTENTIAL OF THIS ARTICLE

背景

方法

结果

结论

本文的转化潜力

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