多孔性和孔形状对聚己内酯电纺纤维支架的结构、力学和生物学性能的影响。

Influence of porosity and pore shape on structural, mechanical and biological properties of poly ϵ-caprolactone electro-spun fibrous scaffolds.

机构信息

Regenerative, Modular & Developmental Engineering Laboratory (REMODEL), National University of Ireland, Galway (NUI Galway), Galway, Ireland.

Centre for Research in Medical Devices (CÚRAM), National University of Ireland, Galway (NUI Galway), Galway, Ireland.

出版信息

Nanomedicine (Lond). 2016 May;11(9):1031-40. doi: 10.2217/nnm.16.21. Epub 2016 Apr 13.

DOI:10.2217/nnm.16.21

PMID:27092983

Abstract

BACKGROUND

Electro-spun scaffolds are utilized in a diverse spectrum of clinical targets, with an ever-increasing quantity of work progressing to clinical studies and commercialization. The limited number of conformations in which the scaffolds can be fabricated hampers their wide acceptance in clinical practice.

MATERIALS & METHODS: Herein, we assessed a single-strep fabrication process for predesigned electro-spun scaffold preparation and the ramifications of the introduction of porosity (0, 30, 50, 70%) and pore shape (circle, rhomboid, square) on structural, mechanical (tensile and ball burst) and biological (dermal fibroblast and THP-1) properties.

RESULTS

The collector design did not affect the fibrous nature of the scaffold. Modulation of the porosity and pore shape offered control over the mechanical properties of the scaffolds. Neither the porosity nor the pore shape affected cellular (dermal fibroblast and THP-1) response.

CONCLUSION

Overall, herein we provide evidence that electro-spun scaffolds of controlled architecture can be fabricated with fibrous fidelity, adequate mechanical properties and acceptable cytocompatibility for a diverse range of clinical targets.

摘要

背景

电纺支架被应用于广泛的临床目标，越来越多的工作进展到临床研究和商业化阶段。支架可以制造的形状有限，这限制了它们在临床实践中的广泛应用。

材料与方法

在此，我们评估了一种用于预设计电纺支架制备的单步纺丝工艺，以及引入孔隙率（0、30、50、70%）和孔形状（圆形、菱形、方形）对结构、力学（拉伸和球爆裂）和生物学（真皮成纤维细胞和 THP-1）性能的影响。

结果

收集器设计不影响支架的纤维性质。孔隙率和孔形状的调节可以控制支架的机械性能。孔隙率和孔形状都不影响细胞（真皮成纤维细胞和 THP-1）的反应。

结论

总的来说，我们在此提供的证据表明，具有可控结构的电纺支架可以以纤维保真度、足够的机械性能和可接受的细胞相容性来制造，以满足广泛的临床目标。

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多孔性和孔形状对聚己内酯电纺纤维支架的结构、力学和生物学性能的影响。

Influence of porosity and pore shape on structural, mechanical and biological properties of poly ϵ-caprolactone electro-spun fibrous scaffolds.

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSION

背景

材料与方法

结果

结论

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