仿生纺丝的丝纤维和原位细胞包封。

Biomimetic spinning of silk fibers and in situ cell encapsulation.

机构信息

Department of Biomedical Engineering, College of Health Science, Korea University, Seoul, 136-713, Republic of Korea.

KU-KIST Graduate School of Converging Science and Technology, Korea University, Seoul, 136-713, Republic of Korea.

出版信息

Lab Chip. 2016 Jul 5;16(14):2654-61. doi: 10.1039/c6lc00488a.

DOI:10.1039/c6lc00488a

PMID:27296229

Abstract

In situ embedding of sensitive materials (e.g., cells and proteins) in silk fibers without damage presents a significant challenge due to the lack of mild and efficient methods. Here, we report the development of a microfluidic chip-based method for preparation of meter-long silk fibroin (SF) hydrogel fibers by mimicking the silkworm-spinning process. For the spinning of SF fibers, alginate was used as a sericin-like material to induce SF phase separation and entrap liquid SFs, making it possible to shape the outline of SF-based fibers under mild physicochemical conditions. L929 fibroblasts were encapsulated in the fibric hydrogel and displayed excellent viability. Cell-laden SF fibric hydrogels prepared using our method offer a new type of SF-based biomedical device with potential utility in biomedicine.

摘要

由于缺乏温和有效的方法，将敏感材料（例如细胞和蛋白质）原位嵌入丝纤维而不造成损坏是一项重大挑战。在这里，我们报告了一种基于微流控芯片的方法的开发，该方法通过模拟蚕的纺丝过程来制备长达一米的丝素（SF）水凝胶纤维。对于 SF 纤维的纺丝，海藻酸钠被用作类似于丝胶的材料来诱导 SF 相分离并捕获液态 SF，从而可以在温和的物理化学条件下塑造 SF 基纤维的轮廓。将 L929 成纤维细胞包封在纤维水凝胶中，显示出优异的活力。使用我们的方法制备的负载细胞的 SF 纤维水凝胶为基于 SF 的生物医学设备提供了一种新型设备，具有在生物医学中的潜在应用。

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仿生纺丝的丝纤维和原位细胞包封。

Biomimetic spinning of silk fibers and in situ cell encapsulation.

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