Antoine Daridon scite author profile

We have developed a novel microfluidic device constructed from poly(dimethylsiloxane) using multilayer soft lithography technology for the analysis of single cells. The microfluidic network enables the passive and gentle separation of a single cell from the bulk cell suspension, and integrated valves and pumps enable the precise delivery of nanoliter volumes of reagents to that cell. Various applications are demonstrated, including cell viability assays, ionophore-mediated intracellular Ca2+ flux measurements, and multistep receptor-mediated Ca2+ measurements. These assays, and others, are achieved with significant improvements in reagent consumption, analysis time, and temporal resolution over macroscale alternatives.

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Multistep Synthesis of a Radiolabeled Imaging Probe Using Integrated Microfluidics

Lee

Sui

Elizarov

et al. 2005

Science

475

357

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Microreactor technology has shown potential for optimizing synthetic efficiency, particularly in preparing sensitive compounds. We achieved the synthesis of an [ 18 F]fluoride-radiolabeled molecular imaging probe, 2-deoxy-2-[ 18 F]fluoro- d -glucose ([ 18 F]FDG), in an integrated microfluidic device. Five sequential processes—[ 18 F]fluoride concentration, water evaporation, radiofluorination, solvent exchange, and hydrolytic deprotection—proceeded with high radio-chemical yield and purity and with shorter synthesis time relative to conventional automated synthesis. Multiple doses of [ 18 F]FDG for positron emission tomography imaging studies in mice were prepared. These results, which constitute a proof of principle for automated multistep syntheses at the nanogram to microgram scale, could be generalized to a range of radiolabeled substrates.

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Antoine Daridon

Microfluidic Device for Single-Cell Analysis

Multistep Synthesis of a Radiolabeled Imaging Probe Using Integrated Microfluidics

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