Perspective in Achieving Stratified Articular Cartilage Repair Using Zonal Chondrocytes.

IF 5.1 2区 医学 Q2 CELL & TISSUE ENGINEERING Tissue Engineering. Part B, Reviews Pub Date : 2023-06-01 DOI:10.1089/ten.TEB.2022.0142
Ching Ann Tee, Jongyoon Han, Hoi Po James Hui, Eng Hin Lee, Zheng Yang
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引用次数: 1

Abstract

Articular cartilage is composed of superficial, medial, and deep zones, which endow the tissue with biphasic mechanical properties to withstand shearing force and compressional loading. The tissue has very limited self-healing capacity once it is damaged due to its avascular nature. To prevent the early onset of osteoarthritis, surgical intervention is often needed to repair the injured cartilage. Current noncell-based and cell-based treatments focus on the regeneration of homogeneous cartilage to achieve bulk compressional properties without recapitulating the zonal matrix and mechanical properties, and often oversight in aiding cartilage integration between host and repair cartilage. It is hypothesized that achieving zonal architecture in articular cartilage tissue repair could improve the structural and mechanical integrity and thus the life span of the regenerated tissue. Engineering stratified cartilage constructs using zonal chondrocytes have been hypothesized to improve the functionality and life span of the regenerated tissues. However, stratified articular cartilage repair has yet to be realized to date due to the lack of an efficient zonal chondrocyte isolation method and an expansion platform that would allow both cell propagation and phenotype maintenance. Various attempts and challenges in achieving stratified articular cartilage repair in a clinical setting are evaluated. In this review, different perspectives on achieving stratified articular cartilage repair using zonal chondrocytes are described. The effectiveness of different zonal chondrocyte isolation and zonal chondrocyte phenotype maintenance methodologies during expansion are compared, with the focus on recent advancements in zonal chondrocyte isolation and expansion that could present a possible strategy to overcome the limitation of applying zonal chondrocytes to facilitate zonal architecture development in articular cartilage regeneration. Impact Statement The zonal properties of articular cartilage contribute to the biphasic mechanical properties of the tissues. Recapitulation of the zonal architecture in regenerated articular cartilage has been hypothesized to improve the mechanical integrity and life span of the regenerated tissue. This review provides a comprehensive discussion on the current state of research relevant to achieving stratified articular cartilage repair using zonal chondrocytes from different perspectives. This review further elaborates on a zonal chondrocyte production pipeline that can potentially overcome the current clinical challenges and future work needed to realize stratified zonal chondrocyte implantation in a clinical setting.

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利用带状软骨细胞实现分层关节软骨修复的前景。
关节软骨由浅层、中层和深层组成,使组织具有双相力学性能,能够承受剪切力和压缩载荷。由于其无血管的性质,组织一旦受损,其自我修复能力非常有限。为了防止早发性骨关节炎,通常需要手术干预来修复损伤的软骨。目前的非细胞和细胞治疗主要集中在均质软骨的再生上,以获得整体压缩性能,而不需要重现带状基质和力学性能,并且经常忽略了帮助宿主软骨和修复软骨之间的软骨整合。假设在关节软骨组织修复中实现带状结构可以提高结构和机械完整性,从而提高再生组织的寿命。使用带状软骨细胞的工程分层软骨结构已经被假设可以改善再生组织的功能和寿命。然而,由于缺乏有效的带状软骨细胞分离方法和允许细胞繁殖和表型维持的扩展平台,分层关节软骨修复迄今尚未实现。各种尝试和挑战在实现分层关节软骨修复在临床设置进行评估。在这篇综述中,不同的观点实现层状关节软骨修复使用带状软骨细胞进行了描述。本文比较了不同分区软骨细胞分离和分区软骨细胞表型维持方法在扩展过程中的有效性,重点介绍了分区软骨细胞分离和扩展的最新进展,这可能为克服应用分区软骨细胞促进关节软骨再生中分区结构发育的局限性提供了一种可能的策略。影响声明关节软骨的区域特性有助于组织的双相力学特性。在再生的关节软骨中,带状结构的再现被认为可以提高再生组织的机械完整性和寿命。本文综述了从不同角度对利用带状软骨细胞实现分层关节软骨修复的研究现状进行了全面的讨论。这篇综述进一步阐述了带状软骨细胞生产管道,可以潜在地克服当前的临床挑战,并在临床环境中实现分层带状软骨细胞植入所需的未来工作。
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来源期刊
Tissue Engineering. Part B, Reviews
Tissue Engineering. Part B, Reviews Biochemistry, Genetics and Molecular Biology-Biochemistry
CiteScore
12.80
自引率
1.60%
发文量
150
期刊介绍: Tissue Engineering Reviews (Part B) meets the urgent need for high-quality review articles by presenting critical literature overviews and systematic summaries of research within the field to assess the current standing and future directions within relevant areas and technologies. Part B publishes bi-monthly.
期刊最新文献
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