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Related Experiment Video

Updated: Jul 10, 2025

The Fabrication and Operation of a Continuous Flow, Micro-Electroporation System with Permeabilization Detection
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The Fabrication and Operation of a Continuous Flow, Micro-Electroporation System with Permeabilization Detection

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A multiplexed microfluidic continuous-flow electroporation system for efficient cell transfection.

Jacob A VanderBurgh1, Grant T Corso1, Stephen L Levy1

  • 1CyteQuest, Inc.

Research Square
|November 21, 2023
PubMed
Summary
This summary is machine-generated.

This study introduces a microfluidic electroporation platform for efficient cellular reprogramming. This adaptable technology enables rapid optimization and scalable manufacturing of cell therapies, overcoming viral vector bottlenecks.

Keywords:
Transfectioncancercell therapyelectroporationimmunotherapynon-viral

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Last Updated: Jul 10, 2025

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Area of Science:

  • Biotechnology
  • Cellular Engineering

Background:

  • Cellular therapies offer broad disease treatment potential but are hindered by viral vector production bottlenecks.
  • Current electroporation methods face challenges in throughput, optimization, and scalability for manufacturing.

Approach:

  • Developed an adaptable microfluidic electroporation platform for rapid, multiplexed optimization using 96-well plates.
  • Demonstrated seamless scaling from small-volume optimization to high-volume cell manufacturing without re-optimization.
  • Screened hundreds of electrical waveforms for plasmid DNA transfection in Jurkat cells using minimal cell volumes.

Key Points:

  • Achieved rapid optimization of transfection parameters at ~3 seconds per waveform.
  • Validated consistent transfection performance across low-volume and high-volume flow cells.
  • Showcased an economical, scalable method for cell therapy manufacturing.

Conclusions:

  • The microfluidic platform overcomes limitations of viral vectors and conventional electroporation.
  • Enables efficient, cost-effective, and scalable production of cellular therapies.
  • Facilitates broader access to advanced cellular treatments.