Add to ORKGThere is great interest in genetic modification of bone marrow-derived mesenchymal stem cells (MSC), not only for research purposes but also for use in (autologous) patient-derived-patient-used transplantations. A major drawback of bulk methods for genetic modifications of (stem) cells, like bulk-electroporation, is its limited yield of DNA transfection (typically then 10%). This is even more limited when cells are present at very low numbers, as is the case for stem cells. Here we present an alternative technology to transfect cells with high efficiency (>75%), based on single cell electroporation in a microfluidic device. In a first experiment we show that we can successfully transport propidium iodide (PI) into single mouse myoblastic C2...
Transporting DNA and metabolites across the cell membrane is a fundamental mechanism to achieve a co...
Electroporation (EP) is currently a widely used bio-technique for delivery of drugs, or macromolecul...
Human mesenchymal stem cells derived from adipose tissue (AD-hMSCs) represent a promising source for...
We have developed a flow-through cell trapping device for the study of gene transfection by electrop...
AbstractWe report an electroporation technique for targeting gene transfer to individual cells in in...
We report an electroporation technique for targeting gene transfer to individual cells in intact tis...
Electroporation is a powerful technique to increase the permeability of cell membranes and subsequen...
Electroporation based on microfluidic technique has demonstrated to be widely used for genomics and ...
Electroporation is an efficient method of introducing foreign impermeant molecules such as drugs and...
To examine a wide range of unique genetic edits, especially for cellular immunotherapy, techniques f...
A battery-powered miniaturized electroporation (EP) system was designed and fabricated to tackle the...
In this thesis the results of the development of microfluidic cell trap devices for single cell elec...
The emergence of microfluidic techniques provide an unprecedented opportunity for peering into molec...
Gene transfer of human primary myoblasts with various non-viral methods has been hampered by low yie...
We developed a localized single-cell electroporation chip to deliver exogenous biomolecules with hig...
Transporting DNA and metabolites across the cell membrane is a fundamental mechanism to achieve a co...
Electroporation (EP) is currently a widely used bio-technique for delivery of drugs, or macromolecul...
Human mesenchymal stem cells derived from adipose tissue (AD-hMSCs) represent a promising source for...
We have developed a flow-through cell trapping device for the study of gene transfection by electrop...
AbstractWe report an electroporation technique for targeting gene transfer to individual cells in in...
We report an electroporation technique for targeting gene transfer to individual cells in intact tis...
Electroporation is a powerful technique to increase the permeability of cell membranes and subsequen...
Electroporation based on microfluidic technique has demonstrated to be widely used for genomics and ...
Electroporation is an efficient method of introducing foreign impermeant molecules such as drugs and...
To examine a wide range of unique genetic edits, especially for cellular immunotherapy, techniques f...
A battery-powered miniaturized electroporation (EP) system was designed and fabricated to tackle the...
In this thesis the results of the development of microfluidic cell trap devices for single cell elec...
The emergence of microfluidic techniques provide an unprecedented opportunity for peering into molec...
Gene transfer of human primary myoblasts with various non-viral methods has been hampered by low yie...
We developed a localized single-cell electroporation chip to deliver exogenous biomolecules with hig...
Transporting DNA and metabolites across the cell membrane is a fundamental mechanism to achieve a co...
Electroporation (EP) is currently a widely used bio-technique for delivery of drugs, or macromolecul...
Human mesenchymal stem cells derived from adipose tissue (AD-hMSCs) represent a promising source for...