基于透明纤维素纳米纤维的使用基质辅助 3D 打印的开放式细胞培养平台。

Transparent cellulose nanofiber based open cell culture platform using matrix-assisted 3D printing.

机构信息

Department of Biosystems and Biomaterials Science and Engineering, Seoul National University, Seoul, 08826, Republic of Korea.

Department of Biosystems and Biomaterials Science and Engineering, Seoul National University, Seoul, 08826, Republic of Korea; Research Institute of Agriculture and Life Sciences, Seoul National University, Seoul, 08826, Republic of Korea.

出版信息

Carbohydr Polym. 2019 Dec 1;225:115235. doi: 10.1016/j.carbpol.2019.115235. Epub 2019 Aug 25.

DOI:10.1016/j.carbpol.2019.115235

PMID:31521297

Abstract

Carboxymethylated hydrophilic CNF (Hphil-CNF) was modified with methyltrimethoxysilane into hydrophobic CNF (Hphob-CNF) and used as a printing matrix. The Hphil-CNF hydrogel was printed at the surface of the Hphob-CNF hydrogel, forming an immiscible, distinct 3D structure. Fabrication of channel systems in the CNF platform was performed by matrix-assisted 3D printing of petroleum jelly ink in the Hphil-CNF-patterned Hphob-CNF hydrogel. After the dehydration process followed by removal of the ink from the CNF film, the CNF hydrogels became a dense platform embedding fluidic channels. The CNF platform exhibited selective diffusion of fluorescein isothiocyanate-dextran from the channels in the Hphil-CNF patterns, indicating transport of bioactive molecules to cells cultured at the platform surface. The applicability of the open cell culture platform was investigated with A549 lung cancer cells by injecting cisplatin, a model drug into the channel.

摘要

羧甲基化亲水性 CNF（Hphil-CNF）用甲基三甲氧基硅烷改性为疏水性 CNF（Hphob-CNF），并用作印刷基质。Hphil-CNF 水凝胶在 Hphob-CNF 水凝胶的表面上被打印，形成不混溶的、明显的 3D 结构。在 CNF 平台中制造通道系统是通过在 Hphil-CNF 图案化的 Hphob-CNF 水凝胶中辅助石油果冻墨水的 3D 打印来完成的。在进行脱水过程并从 CNF 薄膜中去除墨水后，CNF 水凝胶成为嵌入流体通道的密集平台。CNF 平台显示出荧光素异硫氰酸酯-葡聚糖从 Hphil-CNF 图案中的通道中的选择性扩散，表明生物活性分子向在平台表面培养的细胞的输送。通过将顺铂（一种模型药物）注入通道，用 A549 肺癌细胞研究了开放细胞培养平台的适用性。

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基于透明纤维素纳米纤维的使用基质辅助 3D 打印的开放式细胞培养平台。

Transparent cellulose nanofiber based open cell culture platform using matrix-assisted 3D printing.

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