一种基于新型亲水聚酯的可降解电纺支架，用于组织工程应用。

An electrospun degradable scaffold based on a novel hydrophilic polyester for tissue-engineering applications.

机构信息

Department of Pharmaceutics, Utrecht Institute for Pharmaceutical Sciences, Faculty of Science, Utrecht University, P O Box 80082, 3508 TB Utrecht, The Netherlands.

出版信息

Macromol Biosci. 2011 Dec 8;11(12):1684-92. doi: 10.1002/mabi.201100229. Epub 2011 Sep 19.

DOI:10.1002/mabi.201100229

PMID:21932335

Abstract

Scaffolds based on a novel functionalized polyester, pHMGCL, are electrospun and characterized morphologically and physically. In vitro degradation studies of pHMGCL films show considerable mass loss and molecular weight reduction within 70 weeks. Scaffolds composed of fibers with uniform diameter (≈ 900 nm) and with melting temperatures higher than body temperature are prepared. As an indication for the feasibility of this material for regenerative medicine approaches, articular chondrocytes are seeded onto electrospun pHMGCL scaffolds. Chondrocytes attach to the fibers and re-differentiate as demonstrated by the production of GAG and collagen type II within four weeks of in vitro culture. Hydrophilic pHMGCL scaffolds may thus be useful for tissue engineering applications.

摘要

基于新型功能化聚酯 pHMGCL 的支架通过静电纺丝进行制备和形态及物理特性表征。体外降解研究表明，在 70 周内 pHMGCL 薄膜的质量损失和分子量降低非常显著。制备了具有均匀直径（≈900nm）和高于体温的熔融温度的纤维组成的支架。作为这种材料用于再生医学方法的可行性的指示，关节软骨细胞被接种到静电纺丝 pHMGCL 支架上。软骨细胞附着在纤维上，并在体外培养的四周内重新分化，表现为 GAG 和 II 型胶原的产生。因此，亲水性 pHMGCL 支架可能对组织工程应用有用。

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一种基于新型亲水聚酯的可降解电纺支架，用于组织工程应用。

An electrospun degradable scaffold based on a novel hydrophilic polyester for tissue-engineering applications.

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