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加速伤口闭合——不同组织结构的纳米纤维影响细胞迁移,进而影响基于细胞的体外模型中人工伤口的闭合。

Accelerated Wound Closure - Differently Organized Nanofibers Affect Cell Migration and Hence the Closure of Artificial Wounds in a Cell Based In Vitro Model.

作者信息

Ottosson Maximilian, Jakobsson Albin, Johansson Fredrik

机构信息

Dept. Biology, Unit of Functional Zoology, Bio-interface Group, Lund University, Lund, Sweden.

出版信息

PLoS One. 2017 Jan 6;12(1):e0169419. doi: 10.1371/journal.pone.0169419. eCollection 2017.

DOI:10.1371/journal.pone.0169419
PMID:28060880
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5218412/
Abstract

Nanofiber meshes holds great promise in wound healing applications by mimicking the topography of extracellular matrix, hence providing guidance for crucial cells involved in the regenerative processes. Here we explored the influence of nanofiber alignment on fibroblast behavior in a novel in vitro wound model. The model included electrospun poly-ε-caprolactone scaffolds with different nanofiber orientation. Fibroblasts were cultured to confluency for 24h before custom-made inserts were removed, creating cell-free zones serving as artificial wounds. Cell migration into these wounds was evaluated at 0-, 48- and 96h. Cell morphological analysis was performed using nuclei- and cytoskeleton stainings. Cell viability was assessed using a biochemical assay. This study demonstrates a novel in vitro wound assay, for exploring of the impact of nanofibers on wound healing. Additionally we show that it's possible to affect the process of wound closure in a spatial manner using nanotopographies, resulting in faster closure on aligned fiber substrates.

摘要

通过模拟细胞外基质的拓扑结构,纳米纤维网在伤口愈合应用中具有巨大潜力,从而为再生过程中涉及的关键细胞提供引导。在此,我们在一种新型体外伤口模型中探究了纳米纤维排列对成纤维细胞行为的影响。该模型包括具有不同纳米纤维取向的电纺聚己内酯支架。在移除定制插入物之前,将成纤维细胞培养至汇合状态24小时,形成作为人工伤口的无细胞区域。在0小时、48小时和96小时评估细胞向这些伤口的迁移情况。使用细胞核和细胞骨架染色进行细胞形态分析。使用生化测定法评估细胞活力。本研究展示了一种新型体外伤口检测方法,用于探究纳米纤维对伤口愈合的影响。此外,我们表明利用纳米拓扑结构有可能以空间方式影响伤口闭合过程,从而在排列的纤维基质上实现更快的闭合。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0919/5218412/4dcd6f024b96/pone.0169419.g008.jpg
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