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In this experimental work, we measure the trajectories of the cell-free layer (CFL) by tracking labeled red blood cells (RBCs) flowing around the boundary of the RBCs core. The circular glass microchannels studied are 100 um in diameter. The images are captured using confocal system and are post-processed using Image J and MATLAB. The results suggest that the trajectories follows a polynomial function
In this chapter we discuss the cell-free layer (CFL) developed adjacent to the wall of microgeometri...
The current study proposes an automatic method for the segmentation and tracking of red blood cells ...
The development of optical experimental techniques has contributed to obtain explanations on the bl...
In this study, in vitro blood flowing through a 100 m glass capillary was studied. The images were ...
Blood is an opaque, heterogeneous, non-Newtonian fluid composed by a yellowish homogeneous fluid – t...
The motion of the red blood cells (RBCs) flowing in microvessels and microchannels depend on several...
The cell-free layer (CFL) is a hemodynamic phenomenon that has an important contribution to the rheo...
The blood flow dynamics in microcirculation depends strongly on the motion, deformation and interact...
Blood in large arteries may be treated as a homogenous fluid from a macroscopic prospective. Howeve...
In the present work, in vitro blood flowing through a bifurcation microchannel was studied. The aim ...
Red blood cells (RBCs) have a tendency to undergo axial migration due to the parabolic velocity prof...
The current study proposes an automatic method for the segmentation and tracking of red blood cells ...
In microcirculation the cell-free layer is believed to reduce the friction between red blood cells (...
In the present work, in vitro blood flowing through bifurcating microchannels was studied, with the ...
Image analysis is extremely important to obtain crucial information about the blood phenomena in mic...
In this chapter we discuss the cell-free layer (CFL) developed adjacent to the wall of microgeometri...
The current study proposes an automatic method for the segmentation and tracking of red blood cells ...
The development of optical experimental techniques has contributed to obtain explanations on the bl...
In this study, in vitro blood flowing through a 100 m glass capillary was studied. The images were ...
Blood is an opaque, heterogeneous, non-Newtonian fluid composed by a yellowish homogeneous fluid – t...
The motion of the red blood cells (RBCs) flowing in microvessels and microchannels depend on several...
The cell-free layer (CFL) is a hemodynamic phenomenon that has an important contribution to the rheo...
The blood flow dynamics in microcirculation depends strongly on the motion, deformation and interact...
Blood in large arteries may be treated as a homogenous fluid from a macroscopic prospective. Howeve...
In the present work, in vitro blood flowing through a bifurcation microchannel was studied. The aim ...
Red blood cells (RBCs) have a tendency to undergo axial migration due to the parabolic velocity prof...
The current study proposes an automatic method for the segmentation and tracking of red blood cells ...
In microcirculation the cell-free layer is believed to reduce the friction between red blood cells (...
In the present work, in vitro blood flowing through bifurcating microchannels was studied, with the ...
Image analysis is extremely important to obtain crucial information about the blood phenomena in mic...
In this chapter we discuss the cell-free layer (CFL) developed adjacent to the wall of microgeometri...
The current study proposes an automatic method for the segmentation and tracking of red blood cells ...
The development of optical experimental techniques has contributed to obtain explanations on the bl...
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