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Impact of recent innovations in the use of mass cytometry in support of drug development

•Recent innovation in CyTOF brings the capability for simultaneous detection of many proteins to single-cell biology.•CyTOF helps to profile each cell phenotypically and functionally, including distinction of normal and diseased states.•CyTOF is able to resolve more than 120 metal probes, with minim...

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Published in:	Drug discovery today 2015-10, Vol.20 (10), p.1169-1175
Main Authors:	Nassar, Ala F., Ogura, Hideki, Wisnewski, Adam V.
Format:	Article
Language:	English
Subjects:	Animals Drug Design Drug Discovery - methods Flow Cytometry - methods Humans Single-Cell Analysis - methods
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container_title	Drug discovery today
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creator	Nassar, Ala F. Ogura, Hideki Wisnewski, Adam V.
description	•Recent innovation in CyTOF brings the capability for simultaneous detection of many proteins to single-cell biology.•CyTOF helps to profile each cell phenotypically and functionally, including distinction of normal and diseased states.•CyTOF is able to resolve more than 120 metal probes, with minimal signal overlap.•Single cell analysis plays a key role in drug development by improving our understanding of the mechanism of action.•CyTOF will help to speed the drug development process by providing a wealth of information in the analysis. Cytometry by time-of-flight (CyTOF) is a novel technology for the real-time analysis of single cells. CyTOF is a significant advance in fields including immunology, hematology, and oncology. It resolves multiple metal-conjugated probes per cell with minimal signal overlap, which maximizes the information obtained from each individual sample. CyTOF provides the ability to phenotypically and functionally profile cells from normal and diseased states. Single cell technologies enable researchers to measure the effects of a drug at the single cell level and better understand its mechanism of action. Here, we discuss novel instruments for the analysis of individual biological cells, the impact of recent innovations in support of drug development, and the important roles of CyTOF in drug profiling.
doi_str_mv	10.1016/j.drudis.2015.06.001
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subjects	Animals Drug Design Drug Discovery - methods Flow Cytometry - methods Humans Single-Cell Analysis - methods
title	Impact of recent innovations in the use of mass cytometry in support of drug development
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