Add to ORKGAbstract—The detachment of adherent HeLa cells from a substrate after the interaction with a shock wave is analyzed. Cavitation bubbles are formed in the trailing, negative pressure cycle following the shock front. We find that the regions of cell detachment are strongly correlated with spatial presence of cavitation bubbles. It is shown that the cavitation bubble collapse generates a transient high-speed flow along the substrate surface leading to rapid detachment of the cells. Flow trajectories are reconstructed from the video recordings using robust image-processing methods. From these trajectories, an estimate of the shear stress acting on the cells is obtained and the area of detachment is estimated with a kinetic model. Furthermore, i...
Shear stress has been recognized as one of the biophysical methods by which to permeabilize plasma m...
The mechanisms involved in traumatic brain injury have yet to be fully characterized. One mechanism ...
The mechanisms involved in traumatic brain injury have yet to be fully characterized. One mechanism ...
The detachment of adherent HeLa cells from a substrate after the interaction with a shock wave is an...
The interaction of lithotripter-generated shock waves with adherent cells is investigated using high...
The interaction of lithotripter-generated shock waves with adherent cells is investigated using high...
The fluid dynamic interaction of cavitation bubbles with adherent cells on a substrate is experiment...
AbstractThe fluid dynamic interaction of cavitation bubbles with adherent cells on a substrate is ex...
AbstractThe fluid dynamic interaction of cavitation bubbles with adherent cells on a substrate is ex...
textabstractThe fluid dynamic interaction of cavitation bubbles with adherent cells on a substrate i...
ABSTRACT The fluid dynamic interaction of cavitation bubbles with adherent cells on a substrate is e...
The fluid dynamic interaction of cavitation bubbles with adherent cells on a substrate is experiment...
Cavitation bubble dynamics close to a rigid surface gives rise to a rapid and transient fluid flow. ...
Shear stress has been recognized as one of the biophysical methods by which to permeabilize plasma m...
This thesis presents a combined numerical and experimental study on the response of kidney cells to ...
Shear stress has been recognized as one of the biophysical methods by which to permeabilize plasma m...
The mechanisms involved in traumatic brain injury have yet to be fully characterized. One mechanism ...
The mechanisms involved in traumatic brain injury have yet to be fully characterized. One mechanism ...
The detachment of adherent HeLa cells from a substrate after the interaction with a shock wave is an...
The interaction of lithotripter-generated shock waves with adherent cells is investigated using high...
The interaction of lithotripter-generated shock waves with adherent cells is investigated using high...
The fluid dynamic interaction of cavitation bubbles with adherent cells on a substrate is experiment...
AbstractThe fluid dynamic interaction of cavitation bubbles with adherent cells on a substrate is ex...
AbstractThe fluid dynamic interaction of cavitation bubbles with adherent cells on a substrate is ex...
textabstractThe fluid dynamic interaction of cavitation bubbles with adherent cells on a substrate i...
ABSTRACT The fluid dynamic interaction of cavitation bubbles with adherent cells on a substrate is e...
The fluid dynamic interaction of cavitation bubbles with adherent cells on a substrate is experiment...
Cavitation bubble dynamics close to a rigid surface gives rise to a rapid and transient fluid flow. ...
Shear stress has been recognized as one of the biophysical methods by which to permeabilize plasma m...
This thesis presents a combined numerical and experimental study on the response of kidney cells to ...
Shear stress has been recognized as one of the biophysical methods by which to permeabilize plasma m...
The mechanisms involved in traumatic brain injury have yet to be fully characterized. One mechanism ...
The mechanisms involved in traumatic brain injury have yet to be fully characterized. One mechanism ...