<p>A) P1 < P2, δI < 5 μm, ready for image acquisition. B) P1 > P2, δII > 1.2 mm. 1: housing 2: cover slip 3: microscope slide 4: membrane 5: image acquisition 6: illumination.</p
<p>Along the flow (A), facing the flow (F), the three cells clump (T) and the corner bridging cell (...
(A) Microfluidic device at different scales. Images taken with a confocal microscope showing the sil...
<p>The sample mixed with demineralized water is pumped through the flow cell. After evacuation the i...
<p>A) Schematic representation of the flow device, with the dimensions in mm. Depicted in red and bl...
<p>Schematic diagram of a flow cytometer, showing focusing of the fluid sheath, laser, optics (in si...
We describe a novel microfluidic perfusion system for high-resolution microscopes. Its modular desig...
The central purpose of this research is to develop a flow system that can be incorporated into the l...
In vitro quantification of the effect of mechanical loads on cells by live microscopy requires preci...
<p>In all devices presented here, the different layers are held together by mechanical clamping, and...
<p>(A) A flow diagram showing all analysis steps of the image processing pipeline. First, each growt...
<p>EM-CCD camera (1); EM-CCD camera supporter and up-down adjuster (2); Lens (3); Conical light isol...
<p><b>A</b>, Schematic of the laboratory single-fibre HFB module. <b>B</b>, Schematic of model setup...
Flow cytometers are highly flexible technical platforms which allow the quantitative analysis and mo...
<p>A Schematic diagram showing the arrangement of the major components. B Photograph of the micro-pe...
<p>The microfluidic channel consisted of four branches (120x120μm), which allowed for four simultane...
<p>Along the flow (A), facing the flow (F), the three cells clump (T) and the corner bridging cell (...
(A) Microfluidic device at different scales. Images taken with a confocal microscope showing the sil...
<p>The sample mixed with demineralized water is pumped through the flow cell. After evacuation the i...
<p>A) Schematic representation of the flow device, with the dimensions in mm. Depicted in red and bl...
<p>Schematic diagram of a flow cytometer, showing focusing of the fluid sheath, laser, optics (in si...
We describe a novel microfluidic perfusion system for high-resolution microscopes. Its modular desig...
The central purpose of this research is to develop a flow system that can be incorporated into the l...
In vitro quantification of the effect of mechanical loads on cells by live microscopy requires preci...
<p>In all devices presented here, the different layers are held together by mechanical clamping, and...
<p>(A) A flow diagram showing all analysis steps of the image processing pipeline. First, each growt...
<p>EM-CCD camera (1); EM-CCD camera supporter and up-down adjuster (2); Lens (3); Conical light isol...
<p><b>A</b>, Schematic of the laboratory single-fibre HFB module. <b>B</b>, Schematic of model setup...
Flow cytometers are highly flexible technical platforms which allow the quantitative analysis and mo...
<p>A Schematic diagram showing the arrangement of the major components. B Photograph of the micro-pe...
<p>The microfluidic channel consisted of four branches (120x120μm), which allowed for four simultane...
<p>Along the flow (A), facing the flow (F), the three cells clump (T) and the corner bridging cell (...
(A) Microfluidic device at different scales. Images taken with a confocal microscope showing the sil...
<p>The sample mixed with demineralized water is pumped through the flow cell. After evacuation the i...
DOI
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