用于免疫分离的Ba(2+)-海藻酸盐包被朗格汉斯岛的大规模生产。

P Gröhn, G Klöck, J Schmitt, U Zimmermann, A Horcher, R G Bretzel, B J Hering, D Brandhorst, H Brandhorst, T Zekorn
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引用次数: 30

摘要

在海藻酸盐胶囊中免疫分离的胰岛异种移植物已被许多研究小组提出用于临床胰岛移植。然而,扩散限制和移植所需微胶囊的总量是迄今为止阻碍成功临床应用的因素之一。在这项研究中,通过使用空气喷射液滴发生器技术结合随后的密度梯度纯化,将大鼠和猪胰岛固定在Ba(2+)交联排列基质中,克服了这些问题。这一过程导致胰岛的高产量,胰岛被一层量身定制的交联藻酸盐薄层包裹,保护胰岛免受人类血浆中存在的细胞毒性化合物的侵害。包封的大鼠和猪胰岛的回收率约为70%。空胶囊几乎完全被移除。使用这种技术,所得微胶囊的总体积与游离胰岛的体积相比仅增加了约1.5倍。该技术可用于包膜胰岛的大规模生产。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Large-scale production of Ba(2+)-alginate-coated islets of Langerhans for immunoisolation.

Islet xenografts immunisolated in alginate capsules have been proposed by many groups for clinical islet transplantation. However, diffusion limitations and the total volume of microcapsules required for transplantation are, among other things, factors which have so far prevented successful clinical application. In this study, these problems have been overcome by immobilisation of rat and porcine islets in a Ba(2+)-cross-linked alignate matrix using an air jet droplet generator technique in combination with subsequent density-gradient purification. This procedure leads to high yields of islets coated with a tailored, thin layer of cross-linked alginate which protects the islets against cytotoxic compounds present in human plasma. The recovery of encapsulated rat and porcine islets was about 70%. Empty capsules were nearly completely removed. Using this technique, the total volume of the resulting microcapsules increased only by a factor of about 1.5 compared to the volume of free islets. The technique can be used for large-scale production of coated islets.

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