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Droplet microfluidic technology for single-cell high-throughput screening
by
Medkova, Martina
, Rothberg, Jonathan M
, Hutchison, J. Brian
, Savenelli, Neal
, Twardowski, Mariusz
, Brouzes, Eric
, Perrimon, Norbert
, Marran, Dave
, Link, Darren R
, Samuels, Michael L
in
Biological Sciences
/ Biomedical technology
/ Cell growth
/ Cell Survival - drug effects
/ cell viability
/ Cells
/ Cytotoxicity
/ droplets
/ Drug Evaluation, Preclinical - methods
/ drugs
/ Dyes
/ Emulsions
/ Encapsulation
/ Fluorescent Dyes - chemistry
/ Humans
/ Libraries
/ Mammals
/ Microfluidic Analytical Techniques - methods
/ Microfluidics - instrumentation
/ Microfluidics - methods
/ Mitomycin - chemistry
/ Mitomycin - pharmacology
/ Nozzles
/ oils
/ Physical Sciences
/ Preclinical drug evaluation
/ Reagents
/ Reproducibility of Results
/ screening
/ Time Factors
/ Toxicity
/ U937 Cells
/ Validation studies
/ Viability
2009
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Droplet microfluidic technology for single-cell high-throughput screening
by
Medkova, Martina
, Rothberg, Jonathan M
, Hutchison, J. Brian
, Savenelli, Neal
, Twardowski, Mariusz
, Brouzes, Eric
, Perrimon, Norbert
, Marran, Dave
, Link, Darren R
, Samuels, Michael L
in
Biological Sciences
/ Biomedical technology
/ Cell growth
/ Cell Survival - drug effects
/ cell viability
/ Cells
/ Cytotoxicity
/ droplets
/ Drug Evaluation, Preclinical - methods
/ drugs
/ Dyes
/ Emulsions
/ Encapsulation
/ Fluorescent Dyes - chemistry
/ Humans
/ Libraries
/ Mammals
/ Microfluidic Analytical Techniques - methods
/ Microfluidics - instrumentation
/ Microfluidics - methods
/ Mitomycin - chemistry
/ Mitomycin - pharmacology
/ Nozzles
/ oils
/ Physical Sciences
/ Preclinical drug evaluation
/ Reagents
/ Reproducibility of Results
/ screening
/ Time Factors
/ Toxicity
/ U937 Cells
/ Validation studies
/ Viability
2009
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Droplet microfluidic technology for single-cell high-throughput screening
by
Medkova, Martina
, Rothberg, Jonathan M
, Hutchison, J. Brian
, Savenelli, Neal
, Twardowski, Mariusz
, Brouzes, Eric
, Perrimon, Norbert
, Marran, Dave
, Link, Darren R
, Samuels, Michael L
in
Biological Sciences
/ Biomedical technology
/ Cell growth
/ Cell Survival - drug effects
/ cell viability
/ Cells
/ Cytotoxicity
/ droplets
/ Drug Evaluation, Preclinical - methods
/ drugs
/ Dyes
/ Emulsions
/ Encapsulation
/ Fluorescent Dyes - chemistry
/ Humans
/ Libraries
/ Mammals
/ Microfluidic Analytical Techniques - methods
/ Microfluidics - instrumentation
/ Microfluidics - methods
/ Mitomycin - chemistry
/ Mitomycin - pharmacology
/ Nozzles
/ oils
/ Physical Sciences
/ Preclinical drug evaluation
/ Reagents
/ Reproducibility of Results
/ screening
/ Time Factors
/ Toxicity
/ U937 Cells
/ Validation studies
/ Viability
2009
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Droplet microfluidic technology for single-cell high-throughput screening
Journal Article
Droplet microfluidic technology for single-cell high-throughput screening
2009
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Overview
We present a droplet-based microfluidic technology that enables high-throughput screening of single mammalian cells. This integrated platform allows for the encapsulation of single cells and reagents in independent aqueous microdroplets (1 pL to 10 nL volumes) dispersed in an immiscible carrier oil and enables the digital manipulation of these reactors at a very high-throughput. Here, we validate a full droplet screening workflow by conducting a droplet-based cytotoxicity screen. To perform this screen, we first developed a droplet viability assay that permits the quantitative scoring of cell viability and growth within intact droplets. Next, we demonstrated the high viability of encapsulated human monocytic U937 cells over a period of 4 days. Finally, we developed an optically-coded droplet library enabling the identification of the droplets composition during the assay read-out. Using the integrated droplet technology, we screened a drug library for its cytotoxic effect against U937 cells. Taken together our droplet microfluidic platform is modular, robust, uses no moving parts, and has a wide range of potential applications including high-throughput single-cell analyses, combinatorial screening, and facilitating small sample analyses.
Publisher
National Academy of Sciences,National Acad Sciences
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