具有一级和二级多孔结构的生物相容性3D液晶弹性体细胞支架和泡沫材料。

Biocompatible 3D Liquid Crystal Elastomer Cell Scaffolds and Foams with Primary and Secondary Porous Architecture.

作者信息

Gao Yunxiang, Mori Taizo, Manning Sarah, Zhao Yu, Nielsen Alek D, Neshat Abdollah, Sharma Anshul, Mahnen Cory J, Everson Heather R, Crotty Sierra, Clements Robert J, Malcuit Christopher, Hegmann E

机构信息

Liquid Crystal Institute, ‡Department of Chemistry and Biochemistry, §Chemical Physics Interdisciplinary Program, and ∥Department of Biological Sciences, Kent State University, Kent, Ohio 44242, United States.

Liquid Crystal Institute, Department of Chemistry and Biochemistry, §Chemical Physics Interdisciplinary Program, and ∥Department of Biological Sciences, Kent State University, Kent, Ohio 44242, United States.

出版信息

ACS Macro Lett. 2016 Jan 19;5(1):4-9. doi: 10.1021/acsmacrolett.5b00729. Epub 2015 Dec 8.

DOI:10.1021/acsmacrolett.5b00729

PMID:35668595

Abstract

3D biodegradable and highly regular foamlike cell scaffolds based on biocompatible side-chain liquid crystal elastomers have been prepared. Scaffolds with a primary porosity characterized by spatially interlaced, interconnected microchannels or an additional secondary porosity featuring interconnected microchannel networks define the novel elastomeric scaffolds. The macroscale morphology of the dual porosity 3D scaffold resembles vascular networks observed in tissue. 3D elastomer foams show four times higher cell proliferation capability compared to conventional porous templated films and within the channels guide spontaneous cell alignment enabling the possibility of tissue construct fabrication toward more clinically complex environments.

摘要

基于生物相容性侧链液晶弹性体制备了三维可生物降解且高度规则的泡沫状细胞支架。具有以空间交错、相互连接的微通道为特征的初级孔隙率或具有相互连接的微通道网络的额外次级孔隙率的支架定义了新型弹性体支架。双孔隙率三维支架的宏观形态类似于在组织中观察到的血管网络。与传统的多孔模板膜相比，三维弹性体泡沫显示出高四倍的细胞增殖能力，并且在通道内引导细胞自发排列，从而有可能朝着更复杂的临床环境制造组织构建体。

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具有一级和二级多孔结构的生物相容性3D液晶弹性体细胞支架和泡沫材料。

Biocompatible 3D Liquid Crystal Elastomer Cell Scaffolds and Foams with Primary and Secondary Porous Architecture.

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