用于分区关节软骨工程的组合支架形态

Combinatorial scaffold morphologies for zonal articular cartilage engineering.

作者信息

Steele J A M, McCullen S D, Callanan A, Autefage H, Accardi M A, Dini D, Stevens M M

机构信息

Department of Materials, Imperial College London, London, UK; Department of Bioengineering, Imperial College London, London, UK; Institute of Biomedical Engineering, Imperial College London, London, UK; Institute for Materials and Processes (IMP), School of Engineering, The University of Edinburgh, Edinburgh, UK.

出版信息

Acta Biomater. 2014 May;10(5):2065-75. doi: 10.1016/j.actbio.2013.12.030. Epub 2013 Dec 25.

DOI:10.1016/j.actbio.2013.12.030

PMID:24370641

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3991416/

Abstract

Articular cartilage lesions are a particular challenge for regenerative medicine strategies as cartilage function stems from a complex depth-dependent organization. Tissue engineering scaffolds that vary in morphology and function offer a template for zone-specific cartilage extracellular matrix (ECM) production and mechanical properties. We fabricated multi-zone cartilage scaffolds by the electrostatic deposition of polymer microfibres onto particulate-templated scaffolds produced with 0.03 or 1.0mm(3) porogens. The scaffolds allowed ample space for chondrocyte ECM production within the bulk while also mimicking the structural organization and functional interface of cartilage's superficial zone. Addition of aligned fibre membranes enhanced the mechanical and surface properties of particulate-templated scaffolds. Zonal analysis of scaffolds demonstrated region-specific variations in chondrocyte number, sulfated GAG-rich ECM, and chondrocytic gene expression. Specifically, smaller porogens (0.03mm(3)) yielded significantly higher sGAG accumulation and aggrecan gene expression. Our results demonstrate that bilayered scaffolds mimic some key structural characteristics of native cartilage, support in vitro cartilage formation, and have superior features to homogeneous particulate-templated scaffolds. We propose that these scaffolds offer promise for regenerative medicine strategies to repair articular cartilage lesions.

摘要

关节软骨损伤对再生医学策略来说是一项特殊挑战，因为软骨功能源于复杂的深度依赖性组织结构。形态和功能各异的组织工程支架为特定区域软骨细胞外基质（ECM）的产生及力学性能提供了模板。我们通过将聚合物微纤维静电沉积到由0.03或1.0mm³致孔剂制备的颗粒模板支架上，制造出了多区域软骨支架。这些支架在主体内部为软骨细胞产生ECM留出了充足空间，同时还模拟了软骨表层区域的结构组织和功能界面。添加排列的纤维膜增强了颗粒模板支架的力学性能和表面性能。对支架的区域分析表明，软骨细胞数量、富含硫酸化糖胺聚糖的ECM以及软骨细胞基因表达存在区域特异性差异。具体而言，较小的致孔剂（0.03mm³）产生的硫酸化糖胺聚糖积累和聚集蛋白聚糖基因表达显著更高。我们的结果表明，双层支架模拟了天然软骨的一些关键结构特征，支持体外软骨形成，并且具有优于均质颗粒模板支架的特性。我们认为，这些支架为修复关节软骨损伤的再生医学策略带来了希望。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/40a0/3991416/fff06ab635d6/fx1.jpg

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用于分区关节软骨工程的组合支架形态

Combinatorial scaffold morphologies for zonal articular cartilage engineering.

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