冰模板法的最新进展：从仿生复合材料到细胞培养支架和组织工程。

Recent advances in ice templating: from biomimetic composites to cell culture scaffolds and tissue engineering.

机构信息

Laboratoire de Chimie de la Matière Condensée de Paris, Sorbonne Université, 4 Place Jussieu, 75005 Paris, France.

出版信息

J Mater Chem B. 2021 Jan 28;9(4):889-907. doi: 10.1039/d0tb02506b. Epub 2020 Dec 17.

Abstract

Ice templating - or freeze casting - has flourished in multiple domains as a straightforward process to shape solutions and particle suspensions into macroporous materials. Longtime used as a process to shape colloidal suspensions into lightweight ceramics, the use of ice templating has evolved to fabricate materials that mimic the architecture of biological tissues such as nacre and bone. Recently, the technique has been used to shape biopolymers for cell culture systems and tissue engineering applications and eventually to allow the fabrication of biomaterials containing living cells. Here we review how ice templating has progressed to cope with intrinsically labile biological matter and how these advances may shape the future 3D cell culture, tissue engineering and ultimately, cryobiology.

摘要

冰模板法（或冷冻铸造）作为一种将溶液和颗粒悬浮液成型为大孔材料的简单方法，在多个领域得到了广泛应用。该方法长期以来一直被用于将胶体悬浮液成型为轻质陶瓷，现在已经发展成为一种制造模仿生物组织（如珍珠层和骨骼）结构的材料的方法。最近，该技术已被用于为细胞培养系统和组织工程应用制造生物聚合物，并最终允许制造含有活细胞的生物材料。本文综述了冰模板法如何发展以适应本质上不稳定的生物物质，以及这些进展如何塑造未来的 3D 细胞培养、组织工程，最终是低温生物学的未来。

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冰模板法的最新进展：从仿生复合材料到细胞培养支架和组织工程。

Recent advances in ice templating: from biomimetic composites to cell culture scaffolds and tissue engineering.

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