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Related Experiment Video

Updated: May 18, 2026

The Fabrication and Operation of a Continuous Flow, Micro-Electroporation System with Permeabilization Detection
10:34

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

Published on: January 7, 2022

[The sub-microsecond pulser applied for electroporation effect].

Yafang Tan1, Hongchun Yang, Jianxing Wu

  • 1Physical Electronics College, University of Electronics Science and Technology of China, Chengdu 610054, China.

Sheng Wu Yi Xue Gong Cheng Xue Za Zhi = Journal of Biomedical Engineering = Shengwu Yixue Gongchengxue Zazhi
|September 29, 2012
PubMed
Summary
This summary is machine-generated.

This study presents a new generator for sub-microsecond electrical pulses, crucial for studying tumor cell electroporation. The device offers adjustable parameters for precise experimental control in cancer research.

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Related Experiment Videos

Last Updated: May 18, 2026

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

Published on: January 7, 2022

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Microscale Vortex-assisted Electroporator for Sequential Molecular Delivery

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Monitoring Electroporation-Induced Changes in Action Potential Generation in Genetically Engineered Tet-On Spiking HEK cells

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Area of Science:

  • Biophysics
  • Electrical Engineering
  • Oncology

Context:

  • Electroporation is a method used to enhance drug delivery or gene transfection in cells.
  • Precise control over electrical pulse parameters is essential for effective and targeted electroporation.
  • Tumor cell electroporation requires specialized equipment capable of delivering specific waveforms.

Purpose:

  • To develop and present a novel sub-microsecond pulse generator.
  • To enable precise control over pulse amplitude, duration, and frequency for electroporation studies.
  • To provide a versatile tool for investigating electroporation effects on tumor cells.

Summary:

  • A generator producing sub-microsecond electrical pulses was developed using an RC discharge curve and IGBT modules.
  • The system allows for adjustable pulse parameters: 0.5-3.5kV amplitude, 300-800 ns duration, and 1-400Hz repetition rate.
  • Experimental validation confirms the generator's capability to produce the desired adjustable pulse waveforms.

Impact:

  • Facilitates advanced research into tumor cell electroporation mechanisms.
  • Offers a reliable platform for developing novel cancer treatment strategies utilizing electroporation.
  • Contributes to the field of biomedical engineering with a specialized pulse generation system.