Methods for determining the molecular composition of knee joint structures in osteoarthritis: collagen, proteoglycans and water content: a systematic review

Bogdan Raikov, Marina Lipina, Kirill Azarkin, Yuliya Goncharuk, Ivan Vyazankin, Eugene Kalinsky, Tagir Kudrachev, Emirkhan Murdalov, Eugene Nagornov, Gleb Budylin, Evgeny Shirshin, Nataliya Rovnyagina, Vadim Cherepanov, Anton Kurpyakov, Vladimir Telpukhov, Nikita Belov, David Pogosyan, Gennadiy Kavalerskiy, Andrey Gritsyuk, Andrey Garkavi, Alexey Lychagin
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Abstract

Osteoarthritis is a degenerative disease that affects articular cartilage, leading to changes on the macro and micro levels of this multi-component tissue. Understanding the processes underlying this pathology plays an important role in planning the following management tactics. Timely detection of the knee joint degradation at the level of tissue changes can prevent its progressive damage due to the early beginning of appropriate treatment. This study aimed to provide an overview of the current level of knowledge about the composition of cartilage and menisci using a wide range of different diagnostic methods. A systematic review of the literature published from 1978 to 2023 was conducted. Original studies of the knee joint cartilage (articular and meniscus) research, reporting content composition and mechanical properties, were included. Studies of the non-knee joint cartilage, tissue research other than cartilage and meniscus, or reporting treatment outcomes were excluded (n = 111). Thirty-one papers were included in this review, which reported on the composition of animal and human cartilage (articular and meniscus). The most frequently investigated parameters were quantitative proteoglycan determination and hydration level of the cartilage. Cartilage and meniscus degeneration, i.e., reduced collagen and proteoglycan content, reduced mechanical properties, and increased hydration level, was shown in every article about osteoarthritis. Among all diagnostic methods, laboratory methods (biochemical and histological analysis) are the most frequently used, compared to the instrumental ones (spectroscopy, MRI, and CT). At the same time, spectroscopy takes the lead and becomes the most common approach for determining cartilage composition (collagen and proteoglycans content).

Graphical Abstract

确定骨关节炎膝关节结构分子组成的方法:胶原蛋白、蛋白多糖和含水量:系统综述
骨关节炎是一种影响关节软骨的退行性疾病,会导致这种多成分组织在宏观和微观层面发生变化。了解这种病理变化的基本过程对于制定以下治疗策略具有重要作用。及时发现膝关节组织层面的退化变化,可以及早开始适当的治疗,防止其逐渐恶化。本研究旨在概述目前使用各种不同诊断方法对软骨和半月板组成的了解程度。研究人员对 1978 年至 2023 年间发表的文献进行了系统回顾。其中包括对膝关节软骨(关节软骨和半月板)研究的原创性研究,报告了内容组成和机械性能。非膝关节软骨、软骨和半月板以外的组织研究或报告治疗结果的研究不在此列(n = 111)。本综述共纳入 31 篇论文,报告了动物和人体软骨(关节软骨和半月板软骨)的成分。最常研究的参数是蛋白多糖的定量测定和软骨的水合水平。软骨和半月板退化,即胶原蛋白和蛋白多糖含量减少、机械性能降低和水合水平升高,在每篇有关骨关节炎的文章中都有所体现。在所有诊断方法中,实验室方法(生化和组织学分析)比仪器方法(光谱、核磁共振成像和 CT)使用得最多。与此同时,光谱分析法占据领先地位,成为确定软骨成分(胶原蛋白和蛋白多糖含量)的最常用方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Leather Science and Engineering
Journal of Leather Science and Engineering 工程技术-材料科学:综合
CiteScore
12.80
自引率
0.00%
发文量
29
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