Abstract:
A theoretical and experimental study of electroporation (EP) of red blood cells (RBCs) was presented in this paper. With additional strain energy, an energy-based model o...Show MoreMetadata
Abstract:
A theoretical and experimental study of electroporation (EP) of red blood cells (RBCs) was presented in this paper. With additional strain energy, an energy-based model of an electropore induced on a RBC's membrane at different electric fields was proposed to predict the critical EP electric field strength. In addition, EP experiments with red blood cells at single-cell level was carried out on a micro EP chip. The measured critical EP electric field strengths are in agreement with the numerical predictions.
Date of Conference: 20-23 January 2010
Date Added to IEEE Xplore: 30 September 2010
ISBN Information:
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- IEEE Keywords
- Index Terms
- Red Blood Cells ,
- Electroporation Of Cells ,
- Single-cell Level ,
- Electric Field Strength ,
- Strain Energy ,
- Critical Current ,
- Critical Strength ,
- Energy-based Model ,
- Critical Electric Field ,
- Plasma Membrane ,
- Pulse Width ,
- Electrical Energy ,
- Electrostatic Forces ,
- Cell Membrane Permeability ,
- Microelectrode ,
- Printed Circuit Board ,
- Microfabrication ,
- Pulse Amplitude ,
- Electrical Pulses ,
- Transmembrane Potential ,
- Chicken Red Blood Cells ,
- Stable Pores ,
- Microfabrication Process ,
- Glass Wafer ,
- Domestic Chickens ,
- Pore Radius ,
- Knee Point ,
- Function Of Radius ,
- FEM Model ,
- Fluorescence Intensity
- Author Keywords
Contents Keywords assist with retrieval of results and provide a means to discovering other relevant content. Learn more.
- IEEE Keywords
- Index Terms
- Red Blood Cells ,
- Electroporation Of Cells ,
- Single-cell Level ,
- Electric Field Strength ,
- Strain Energy ,
- Critical Current ,
- Critical Strength ,
- Energy-based Model ,
- Critical Electric Field ,
- Plasma Membrane ,
- Pulse Width ,
- Electrical Energy ,
- Electrostatic Forces ,
- Cell Membrane Permeability ,
- Microelectrode ,
- Printed Circuit Board ,
- Microfabrication ,
- Pulse Amplitude ,
- Electrical Pulses ,
- Transmembrane Potential ,
- Chicken Red Blood Cells ,
- Stable Pores ,
- Microfabrication Process ,
- Glass Wafer ,
- Domestic Chickens ,
- Pore Radius ,
- Knee Point ,
- Function Of Radius ,
- FEM Model ,
- Fluorescence Intensity
- Author Keywords
