Fluid handling and environmental management for automated 3-D cell culturing

2014 Systems and Information Engineering Design Symposium (SIEDS) Pub Date : 2014-04-25 DOI:10.1109/SIEDS.2014.6829923

K. Green, Ashutosh Panchang, Hanke Meng, Evan D'Agostini, R. Bates, R. Bailey, A. LaViers

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Abstract

This paper reports on the development of three subsystems to automate the process of three dimensional cell culturing. Conventional cell culturing is a manual process in which cells are grown in a controlled environment and eventually harvested for testing purposes. The large amount of human labor necessary in this process creates opportunity for human error that limits cell culture quality. Taking steps towards automation involved the design and implementation of three subsystems: one for environmental management; another for fluid handling; and a third for controls and communication. Following development of the subsystems, a series of tests were performed to validate functionality and provide a basis for complete integration of all systems. Complete automation of the process will solve several challenges encountered during traditional cell culturing including tight control of the growth environment, eliminating contamination, maintaining many cultures simultaneously, and maintaining consistency and quality.

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流体处理和环境管理自动化三维细胞培养

本文报道了三维细胞培养过程自动化的三个子系统的开发。传统的细胞培养是一个人工过程，细胞在一个受控的环境中生长，最终收获用于测试目的。在这个过程中需要大量的人力劳动，这就为人为失误创造了机会，从而限制了细胞培养的质量。迈向自动化的步骤涉及设计和实施三个子系统:一个用于环境管理;另一种用于流体处理;第三个用于控制和通信。随着子系统的开发，执行了一系列测试来验证功能，并为所有系统的完全集成提供了基础。该过程的完全自动化将解决传统细胞培养过程中遇到的几个挑战，包括严格控制生长环境，消除污染，同时维持多个培养物，以及保持一致性和质量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2014 Systems and Information Engineering Design Symposium (SIEDS)

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