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Microphysiological system with integrated sensors to study the effect of pulsed electric field
by
Kasperaviciute, Kamile
, Sapurov, Martynas
, Dobilas, Jorunas
, Bakute, Neringa
, Stirke, Arunas
, Andriukonis, Eivydas
, Mozolevskis, Gatis
in
631/1647/277
/ 631/1647/350/877
/ 631/57/2283
/ Alkalinity
/ Animals
/ Cell Line, Tumor
/ Cell Survival
/ Cell viability
/ Continuous flow
/ Dimethylpolysiloxanes - chemistry
/ Electric fields
/ Electric Impedance
/ Electrical resistivity
/ Electricity
/ Fluorescent indicators
/ Humanities and Social Sciences
/ Hydrogen-Ion Concentration
/ Integrated circuits
/ Lab-On-A-Chip Devices
/ Mammalian cells
/ Microfluidics
/ Microfluidics - instrumentation
/ Microfluidics - methods
/ Microphysiological system
/ Microphysiological Systems
/ multidisciplinary
/ OSTE
/ Oxygen - metabolism
/ Permeability
/ Polydimethylsiloxane
/ Pulsed electric field
/ Rats
/ Science
/ Science (multidisciplinary)
/ Sensors
/ Sensors, PDMS
/ Stoichiometry
2024
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Microphysiological system with integrated sensors to study the effect of pulsed electric field
by
Kasperaviciute, Kamile
, Sapurov, Martynas
, Dobilas, Jorunas
, Bakute, Neringa
, Stirke, Arunas
, Andriukonis, Eivydas
, Mozolevskis, Gatis
in
631/1647/277
/ 631/1647/350/877
/ 631/57/2283
/ Alkalinity
/ Animals
/ Cell Line, Tumor
/ Cell Survival
/ Cell viability
/ Continuous flow
/ Dimethylpolysiloxanes - chemistry
/ Electric fields
/ Electric Impedance
/ Electrical resistivity
/ Electricity
/ Fluorescent indicators
/ Humanities and Social Sciences
/ Hydrogen-Ion Concentration
/ Integrated circuits
/ Lab-On-A-Chip Devices
/ Mammalian cells
/ Microfluidics
/ Microfluidics - instrumentation
/ Microfluidics - methods
/ Microphysiological system
/ Microphysiological Systems
/ multidisciplinary
/ OSTE
/ Oxygen - metabolism
/ Permeability
/ Polydimethylsiloxane
/ Pulsed electric field
/ Rats
/ Science
/ Science (multidisciplinary)
/ Sensors
/ Sensors, PDMS
/ Stoichiometry
2024
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Microphysiological system with integrated sensors to study the effect of pulsed electric field
by
Kasperaviciute, Kamile
, Sapurov, Martynas
, Dobilas, Jorunas
, Bakute, Neringa
, Stirke, Arunas
, Andriukonis, Eivydas
, Mozolevskis, Gatis
in
631/1647/277
/ 631/1647/350/877
/ 631/57/2283
/ Alkalinity
/ Animals
/ Cell Line, Tumor
/ Cell Survival
/ Cell viability
/ Continuous flow
/ Dimethylpolysiloxanes - chemistry
/ Electric fields
/ Electric Impedance
/ Electrical resistivity
/ Electricity
/ Fluorescent indicators
/ Humanities and Social Sciences
/ Hydrogen-Ion Concentration
/ Integrated circuits
/ Lab-On-A-Chip Devices
/ Mammalian cells
/ Microfluidics
/ Microfluidics - instrumentation
/ Microfluidics - methods
/ Microphysiological system
/ Microphysiological Systems
/ multidisciplinary
/ OSTE
/ Oxygen - metabolism
/ Permeability
/ Polydimethylsiloxane
/ Pulsed electric field
/ Rats
/ Science
/ Science (multidisciplinary)
/ Sensors
/ Sensors, PDMS
/ Stoichiometry
2024
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Microphysiological system with integrated sensors to study the effect of pulsed electric field
Journal Article
Microphysiological system with integrated sensors to study the effect of pulsed electric field
2024
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Overview
This study focuses on the use of pulsed electric fields (PEF) in microfluidics for controlled cell studies. The commonly used material for soft lithography, polydimethylsiloxane (PDMS), does not fully ensure the necessary chemical and mechanical resistance in these systems. Integration of specific analytical measurement setups into microphysiological systems (MPS) are also challenging. We present an off-stoichiometry thiol-ene (OSTE)-based microchip, containing integrated electrodes for PEF and transepithelial electrical resistance (TEER) measurement and the equipment to monitor pH and oxygen concentration in situ. The effectiveness of the MPS was empirically demonstrated through PEF treatment of the C6 cells. The effects of PEF treatment on cell viability and permeability to the fluorescent dye DapI were tested in two modes: stop flow and continuous flow. The maximum permeability was achieved at 1.8 kV/cm with 16 pulses in stop flow mode and 64 pulses per cell in continuous flow mode, without compromising cell viability. Two integrated sensors detected changes in oxygen concentration before and after the PEF treatment, and the pH shifted towards alkalinity following PEF treatment. Therefore, our proof-of-concept technology serves as an MPS for PEF treatment of mammalian cells, enabling in situ physiological monitoring.
Publisher
Nature Publishing Group UK,Nature Publishing Group,Nature Portfolio
Subject
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