Add to ORKGWe have developed a microfluidic platform to immobilize single living cells at a position in a microfluidic channel for monitoring cell responses to different stimuli over time. While the cell is trapped, the device maintains control over changing the channel media and flow rate. The captured cell may be released in order to capture another cell and repeat the experiment without disturbing the setup. We have demonstrated the monitoring of an individual yeast cell, in which the captured cell is exposed to α-factor ligand
The possibility to conduct complete cell assays under a precisely controlled environment while consu...
Progress in synthetic biology requires the development of novel techniques for investigating long-te...
Traditionally, in vitro investigations on biology and physiology of cells rely on averaging the resp...
The physiological properties of cells are typically investigated in ensembles yielding averaged data...
Over the past decade, interest in microfluidics has surged as applications have trended towards nove...
International audienceMicrofluidic platforms are ideal for generating dynamic temporal and spatial p...
Microfluidics and microtechnologies are of great interest for biological applications. This interest...
Cells naturally exist in a dynamic chemical environment, and therefore it is necessary to study cell...
We report on the development of an experimental platform where epi-fluorescence microscopy and optic...
Bottom-up approach in understanding and developing gene networks calls for study of cells on a singl...
We present a microfluidic system that facilitates long-term measurements of single cell response to ...
Abstract Traditionally, in vitro investigations on biology and physiology of cells rely on averaging...
In this study we present a novel microfluidic hydrodynamic trapping device to probe the cell-cell in...
Microfluidic designs are versatile examples of technology miniaturisation that find their applicatio...
The possibility to conduct complete cell assays under a precisely controlled environment while consu...
The possibility to conduct complete cell assays under a precisely controlled environment while consu...
Progress in synthetic biology requires the development of novel techniques for investigating long-te...
Traditionally, in vitro investigations on biology and physiology of cells rely on averaging the resp...
The physiological properties of cells are typically investigated in ensembles yielding averaged data...
Over the past decade, interest in microfluidics has surged as applications have trended towards nove...
International audienceMicrofluidic platforms are ideal for generating dynamic temporal and spatial p...
Microfluidics and microtechnologies are of great interest for biological applications. This interest...
Cells naturally exist in a dynamic chemical environment, and therefore it is necessary to study cell...
We report on the development of an experimental platform where epi-fluorescence microscopy and optic...
Bottom-up approach in understanding and developing gene networks calls for study of cells on a singl...
We present a microfluidic system that facilitates long-term measurements of single cell response to ...
Abstract Traditionally, in vitro investigations on biology and physiology of cells rely on averaging...
In this study we present a novel microfluidic hydrodynamic trapping device to probe the cell-cell in...
Microfluidic designs are versatile examples of technology miniaturisation that find their applicatio...
The possibility to conduct complete cell assays under a precisely controlled environment while consu...
The possibility to conduct complete cell assays under a precisely controlled environment while consu...
Progress in synthetic biology requires the development of novel techniques for investigating long-te...
Traditionally, in vitro investigations on biology and physiology of cells rely on averaging the resp...