ENABLING NEXT-GENERATION CELL LINE DEVEOPMENT USING CONTINUOUS PERFUSION AND NANOFLUIDIC TECHNOLOGIES

机译：利用连续灌注和纳米流体技术促进下一代细胞系的发育

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The manufacturing process for a biologic begins with establishing a clonally derived, stable production cell line. Generating a highly productive cell line is time and resource intensive and involves screening of a large number of candidates. While miniaturization and automation strategies can reduce resources and increase throughput, they have matured and recent advances have been incremental. With increasing pressure on time to commercialization and the increasing diversity and complexity of therapies in discovery research, there is a need to transform cell line development to accelerate patient access to novel therapies and nanofluidic technology are on potential solution. In this study, we present cell line development data on the Berkeley Lights integrated platform. Cells are manipulated at a single cell level though use of OptoElectronic Positioning (OEP) technology which utilizes projected light patterns to activate photoconductors that gently moves cells. Common cell culture tasks can be programmed though software allowing thousands of cell lines to cultured simultaneously. Cultures can be interrogated for productivity and growth characteristics while on the chip at ~100-fold miniaturization and continuous perfusion of cell culture medium enables effective and robust cell growth and product concentration despite starting from a single cell. Concepts from perfusion culture are also applied to measure productivity and product quality. We demonstrate that commercial production CHO cell lines can be cultured in this nanofluidic environment and show that sub clone isolation, recovery, and selection are achieved with high efficiency. Overall, this technology has the potential to transform cell line development workflows through the replacement of laborious manual processes with nanofluidics and automation, and can ultimately enable the rapid selection of high performing cell lines.

机译：生物制剂的生产过程始于建立克隆衍生的稳定生产细胞系。产生高生产力的细胞系是时间和资源密集的，并且涉及筛选大量候选物。尽管小型化和自动化策略可以减少资源并提高吞吐量，但它们已经成熟，并且最近的进步也在不断增加。随着商业化时间的压力越来越大，发现研究中疗法的多样性和复杂性越来越高，需要转变细胞系开发以加速患者对新型疗法的访问，而纳米流体技术正在潜在的解决方案上。在这项研究中，我们在Berkeley Lights集成平台上展示细胞系开发数据。通过使用光电定位（OEP）技术在单个细胞级别上操纵细胞，该技术利用投射的光模式来激活轻轻移动细胞的光电导体。可以通过软件对常见的细胞培养任务进行编程，该软件允许同时培养数千个细胞系。可以询问培养物的生产率和生长特性，而在芯片上以约100倍的微型化程度进行，即使从单个细胞开始，细胞培养基的连续灌注也可以实现有效而稳健的细胞生长和产物浓缩。灌注培养的概念也可用于衡量生产率和产品质量。我们证明了可以在这种纳米流体环境中培养商业生产的CHO细胞系，并表明亚克隆的分离，回收和选择是高效实现的。总体而言，这项技术有潜力通过用纳米流体和自动化技术取代费力的手动过程来转变细胞系开发工作流程，并最终可以快速选择高性能细胞系。

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《Conference on single-use technologies II: bridging polymer science to biotechnology applications》|2017年|205-205|共1页
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Jennitte Stevens; Kim Le; Shivani Gupta; Christopher Tan; Trent Munro; Chetan Goudar;
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cell line development; nanofluidics; clone screening;

机译：细胞系发育;纳米流体克隆筛选;

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ENABLING NEXT-GENERATION CELL LINE DEVEOPMENT USING CONTINUOUS PERFUSION AND NANOFLUIDIC TECHNOLOGIES

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