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  • A Microfluidic Platform for the Rapid Determination of Distribution Coefficients by Gravity-Assisted Droplet-Based Liquid-Liquid Extraction.

A Microfluidic Platform for the Rapid Determination of Distribution Coefficients by Gravity-Assisted Droplet-Based Liquid-Liquid Extraction.

Analytical chemistry (2015-05-20)
Carl Esben Poulsen, Robert C R Wootton, Anders Wolff, Andrew J deMello, Katherine S Elvira
RÉSUMÉ

The determination of pharmacokinetic properties of drugs, such as the distribution coefficient (D) is a crucial measurement in pharmaceutical research. Surprisingly, the conventional (gold standard) technique used for D measurements, the shake-flask method, is antiquated and unsuitable for the testing of valuable and scarce drug candidates. Herein, we present a simple microfluidic platform for the determination of distribution coefficients using droplet-based liquid-liquid extraction. For simplicity, this platform makes use of gravity to enable phase separation for analysis and is 48 times faster and uses 99% less reagents than performing an equivalent measurement using the shake-flask method. Furthermore, the D measurements achieved in our platform are in good agreement with literature values measured using traditional shake-flask techniques. Since D is affected by volume ratios, we use the apparent acid dissociation constant, pK', as a proxy for intersystem comparison. Our platform determines a pK' value of 7.24 ± 0.15, compared to 7.25 ± 0.58 for the shake-flask method in our hands and 7.21 for the shake-flask method in the literature. Devices are fabricated using injection molding, the batchwise fabrication time is <2 min per device (at a cost of $1 U.S. per device), and the interdevice reproducibility is high.

MATÉRIAUX
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Description du produit

Sigma-Aldrich
Quinine, 90%
Sigma-Aldrich
Quinine, suitable for fluorescence, anhydrous, ≥98.0% (dried material, NT)
Sigma-Aldrich
Quinine hydrochloride dihydrate
Sigma-Aldrich
Quinine hydrochloride dihydrate, BioReagent, suitable for fluorescence, ≥98.0% (NT)