Affiliation:
1. George W. Woodruff School of Mechanical Engineering Georgia Institute of Technology Atlanta Georgia USA
2. IEN Center for Human‐Centric Interfaces and Engineering Institute for Electronics and Nanotechnology Georgia Institute of Technology Atlanta Georgia USA
3. Wallace H. Coulter Department of Biomedical Engineering Georgia Tech and Emory University School of Medicine Atlanta Georgia USA
4. Institute for Materials Institute for Robotics and Intelligent Machines Neural Engineering Center Georgia Institute of Technology Atlanta Georgia USA
Abstract
AbstractCell culture encompasses procedures for extracting cells from their natural tissue and cultivating them under controlled artificial conditions. During this process, various factors, including cell physiological/morphological properties, culture environments, metabolites, and contaminants, have to be precisely controlled and monitored for the survival of cells and the pursuit of the desired properties of the cells. This review summarizes recent advances in sensor technologies and manufacturing strategies for various cell culture platforms using traditional plastics, microfluidic chips, and scalable bioreactors. We share the details of newly developed biological sensors, chemical sensors, optical sensors, electronic chip technologies, and material integration methods. The precise control of parameters based on the feedback by these sensors and electronics enhances cell culture quality and throughput.
Funder
Directorate for Biological Sciences
Cited by
7 articles.
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