High-throughput single cell imaging is a critical enabling and driving technology in molecular and cellular biology, biotechnology, medicine and related areas. Imaging flow cytometry combines the single-cell imaging capabilities of microscopy with the high-throughput capabilities of conventional flow cytometry. Recent advances in imaging flow cytometry are remarkably revolutionizing single-cell analysis. This article describes recent imaging flow cytometry technologies and their challenges
flow cytometry, the output is either a single absor-bance or fluorescence profile per cell. Although...
Biomedical research is evolving to address biological systems as molecular pathways integrated into ...
I will present a microfluidic imaging flow cytometer incorporating stroboscopic illumination, for bl...
This article first reviews scientific meanings of single-cell analysis by highlighting two key scien...
Imaging flow cytometry combines the high event rate nature of flow cytometry with the advantages of ...
Flow cytometry is a benchmark technique used for basic research and clinical diagnosis of various di...
Flow cytometry's informative potential has been underestimated for many years because of a lack of a...
This review focuses on flow cytometric studies at the single cell level. Currently, flow cytometry i...
High-throughput optical sensing and imaging instrument for capture and analysis of cells are among t...
Flow cytometry is a laser-based technology generating a scattered and a fluorescent light signal tha...
Flow cytometry is the tool of choice for high-speed acquisition and analysis of large cell populatio...
Visualization of intracellular organelles is achieved using a newly developed high throughput imagin...
Single-cell imaging-based assays are an area of active and growing investment in drug discovery and ...
We develop a high-throughput technique to relate positions of individual cells to their three-dimens...
Technology development in biological research often aims to either increase the number of cellular f...
flow cytometry, the output is either a single absor-bance or fluorescence profile per cell. Although...
Biomedical research is evolving to address biological systems as molecular pathways integrated into ...
I will present a microfluidic imaging flow cytometer incorporating stroboscopic illumination, for bl...
This article first reviews scientific meanings of single-cell analysis by highlighting two key scien...
Imaging flow cytometry combines the high event rate nature of flow cytometry with the advantages of ...
Flow cytometry is a benchmark technique used for basic research and clinical diagnosis of various di...
Flow cytometry's informative potential has been underestimated for many years because of a lack of a...
This review focuses on flow cytometric studies at the single cell level. Currently, flow cytometry i...
High-throughput optical sensing and imaging instrument for capture and analysis of cells are among t...
Flow cytometry is a laser-based technology generating a scattered and a fluorescent light signal tha...
Flow cytometry is the tool of choice for high-speed acquisition and analysis of large cell populatio...
Visualization of intracellular organelles is achieved using a newly developed high throughput imagin...
Single-cell imaging-based assays are an area of active and growing investment in drug discovery and ...
We develop a high-throughput technique to relate positions of individual cells to their three-dimens...
Technology development in biological research often aims to either increase the number of cellular f...
flow cytometry, the output is either a single absor-bance or fluorescence profile per cell. Although...
Biomedical research is evolving to address biological systems as molecular pathways integrated into ...
I will present a microfluidic imaging flow cytometer incorporating stroboscopic illumination, for bl...