Flow cytometry is the tool of choice for high-speed acquisition and analysis of large cell populations, with the tradeoff of lacking intracellular spatial information. Although in the last decades flow cytometry systems that can actually acquire two-dimensional spatial information were developed, some of the limitations remained though, namely constrains related to sample size and lack of depth or dynamic information.Postprint (published version
High-throughput single cell imaging is a critical enabling and driving technology in molecular and c...
Purpose: An in vivo flow cytometer was developed recently, providing quantification of fluorescently...
Flow cytometry (FCM) is a technique, which allows one to analyse cells rapidly and individually, and...
High-throughput optical sensing and imaging instrument for capture and analysis of cells are among t...
We develop a high-throughput technique to relate positions of individual cells to their three-dimens...
Flow cytometry's informative potential has been underestimated for many years because of a lack of a...
Flow Cytometry (FC) determines multiple physical and biological characteristics of cells by detectin...
Capturing the dynamics of live cell populations with nanoscale resolution poses a significant challe...
Here we present a light sheet based imaging flow cytometry system to image 2D cross sections of the ...
Flow cytometry is a technology that measures simultaneously both optical and fluorescence properties...
Flow cytometry is a benchmark technique used for basic research and clinical diagnosis of various di...
Visualization of intracellular organelles is achieved using a newly developed high throughput imagin...
Flow cytometry is a laser-based technology generating a scattered and a fluorescent light signal tha...
Flow cytometry is a technology which measures physical properties and fluorescence of particles, for...
This unit describes methods for quantifying phagocytosis and imaging the immunological synapse betwe...
High-throughput single cell imaging is a critical enabling and driving technology in molecular and c...
Purpose: An in vivo flow cytometer was developed recently, providing quantification of fluorescently...
Flow cytometry (FCM) is a technique, which allows one to analyse cells rapidly and individually, and...
High-throughput optical sensing and imaging instrument for capture and analysis of cells are among t...
We develop a high-throughput technique to relate positions of individual cells to their three-dimens...
Flow cytometry's informative potential has been underestimated for many years because of a lack of a...
Flow Cytometry (FC) determines multiple physical and biological characteristics of cells by detectin...
Capturing the dynamics of live cell populations with nanoscale resolution poses a significant challe...
Here we present a light sheet based imaging flow cytometry system to image 2D cross sections of the ...
Flow cytometry is a technology that measures simultaneously both optical and fluorescence properties...
Flow cytometry is a benchmark technique used for basic research and clinical diagnosis of various di...
Visualization of intracellular organelles is achieved using a newly developed high throughput imagin...
Flow cytometry is a laser-based technology generating a scattered and a fluorescent light signal tha...
Flow cytometry is a technology which measures physical properties and fluorescence of particles, for...
This unit describes methods for quantifying phagocytosis and imaging the immunological synapse betwe...
High-throughput single cell imaging is a critical enabling and driving technology in molecular and c...
Purpose: An in vivo flow cytometer was developed recently, providing quantification of fluorescently...
Flow cytometry (FCM) is a technique, which allows one to analyse cells rapidly and individually, and...