High-dimensional cytometry represents an exciting new era of immunology research, enabling the discovery of new cells and prediction of patient responses to therapy. A plethora of analysis and visualization tools and programs are now available for both new and experienced users; however, the transition from low- to high-dimensional cytometry requires a change in the way users think about experimental design and data analysis. Data from high-dimensional cytometry experiments are often underutilized, because of both the size of the data and the number of possible combinations of markers, as well as to a lack of understanding of the processes required to generate meaningful data. In this article, we explain the concepts behind designing high-d...
Background Clinical flow cytometry typically involves the sequential interpretation of two-dimensio...
Modern cytometry technologies present opportunities to profile the immune system at a single-cell re...
Flow Cytometry (FCM) is widely used to investigate and diagnose human disease. Although high-through...
High-dimensional cytometry experiments measuring 20-50 cellular markers have become routine in many ...
New cytometric techniques continue to push the boundaries of multi-parameter quantitative data acqui...
New cytometric techniques continue to push the boundaries of multi-parameter quantitative data acqui...
High-dimensional, single-cell cell technologies revolutionized the way to study biological systems, ...
High-dimensional, single-cell cell technologies revolutionized the way to study biological systems, ...
Recent advances in flow cytometry allow scientists to measure an increasing number of parameters per...
High-dimensional single-cell (HDcyto) technologies, such as mass cytometry (CyTOF) and flow cytometr...
\u3cp\u3eTo understand how the immune system works, one needs to have a clear picture of its cellula...
To understand how the immune system works, one needs to have a clear picture of its cellular composi...
Ever since its invention half a century ago, flow cytometry has been a major tool for single-cell an...
Recent advances in cytometry have radically altered the fate of single-cell proteomics by allowing a...
An important aspect of immune monitoring for vaccine development, clinical trials, and research is t...
Background Clinical flow cytometry typically involves the sequential interpretation of two-dimensio...
Modern cytometry technologies present opportunities to profile the immune system at a single-cell re...
Flow Cytometry (FCM) is widely used to investigate and diagnose human disease. Although high-through...
High-dimensional cytometry experiments measuring 20-50 cellular markers have become routine in many ...
New cytometric techniques continue to push the boundaries of multi-parameter quantitative data acqui...
New cytometric techniques continue to push the boundaries of multi-parameter quantitative data acqui...
High-dimensional, single-cell cell technologies revolutionized the way to study biological systems, ...
High-dimensional, single-cell cell technologies revolutionized the way to study biological systems, ...
Recent advances in flow cytometry allow scientists to measure an increasing number of parameters per...
High-dimensional single-cell (HDcyto) technologies, such as mass cytometry (CyTOF) and flow cytometr...
\u3cp\u3eTo understand how the immune system works, one needs to have a clear picture of its cellula...
To understand how the immune system works, one needs to have a clear picture of its cellular composi...
Ever since its invention half a century ago, flow cytometry has been a major tool for single-cell an...
Recent advances in cytometry have radically altered the fate of single-cell proteomics by allowing a...
An important aspect of immune monitoring for vaccine development, clinical trials, and research is t...
Background Clinical flow cytometry typically involves the sequential interpretation of two-dimensio...
Modern cytometry technologies present opportunities to profile the immune system at a single-cell re...
Flow Cytometry (FCM) is widely used to investigate and diagnose human disease. Although high-through...