AbstractThe impingement of a submerged, liquid jet onto a cell-covered surface allows assessing cell attachment on surfaces in a straightforward and quantitative manner and in real time, yielding valuable information on cell adhesion. However, this approach is insufficiently characterized for reliable and routine use. In this work, we both model and measure the shear stress exerted by the jet on the impingement surface in the micrometer-domain, and subsequently correlate this to jet-induced cell detachment. The measured and numerically calculated shear stress data are in good agreement with each other, and with previously published values. Real-time monitoring of the cell detachment reveals the creation of a circular cell-free area upon jet...
The adhesion strength of cells depends on the properties of the surface they attach to. Varying the ...
The adhesion strength of cells depends on the properties of the surface they attach to. Varying the ...
AbstractWe have developed a technique to directly quantify cell-substrate adhesion force using micro...
The impingement of a submerged, liquid jet onto a cell-covered surface allows assessing cell attachm...
AbstractThe impingement of a submerged, liquid jet onto a cell-covered surface allows assessing cell...
International audienceWe present experiments involving cancer cells adhering to microchannels, subje...
International audienceWe present experiments involving cancer cells adhering to microchannels, subje...
International audienceWe present experiments involving cancer cells adhering to microchannels, subje...
International audienceWe present experiments involving cancer cells adhering to microchannels, subje...
International audienceWe have developed a technique to directly quantify cell-substrate adhesion for...
International audienceWe have developed a technique to directly quantify cell-substrate adhesion for...
International audienceWe have developed a technique to directly quantify cell-substrate adhesion for...
AbstractWe have developed a technique to directly quantify cell-substrate adhesion force using micro...
A parallel-plate flow chamber is developed in order to study cellular adhesion phenomena. An image a...
A parallel-plate flow chamber is developed in order to study cellular adhesion phenomena. An image a...
The adhesion strength of cells depends on the properties of the surface they attach to. Varying the ...
The adhesion strength of cells depends on the properties of the surface they attach to. Varying the ...
AbstractWe have developed a technique to directly quantify cell-substrate adhesion force using micro...
The impingement of a submerged, liquid jet onto a cell-covered surface allows assessing cell attachm...
AbstractThe impingement of a submerged, liquid jet onto a cell-covered surface allows assessing cell...
International audienceWe present experiments involving cancer cells adhering to microchannels, subje...
International audienceWe present experiments involving cancer cells adhering to microchannels, subje...
International audienceWe present experiments involving cancer cells adhering to microchannels, subje...
International audienceWe present experiments involving cancer cells adhering to microchannels, subje...
International audienceWe have developed a technique to directly quantify cell-substrate adhesion for...
International audienceWe have developed a technique to directly quantify cell-substrate adhesion for...
International audienceWe have developed a technique to directly quantify cell-substrate adhesion for...
AbstractWe have developed a technique to directly quantify cell-substrate adhesion force using micro...
A parallel-plate flow chamber is developed in order to study cellular adhesion phenomena. An image a...
A parallel-plate flow chamber is developed in order to study cellular adhesion phenomena. An image a...
The adhesion strength of cells depends on the properties of the surface they attach to. Varying the ...
The adhesion strength of cells depends on the properties of the surface they attach to. Varying the ...
AbstractWe have developed a technique to directly quantify cell-substrate adhesion force using micro...