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Recruitment and Immobilization of a Fluorinated Biomarker Across an Interfacial Phospholipid Film using a Fluorocarbon Gas.

Yang G., O'Duill M., Gouverneur V., Krafft MP.

Perfluorohexane gas when introduced in the air atmosphere above a film of phospholipid self-supported on an aqueous solution of C2F5-labeled compounds causes the recruitment and immobilization of the latter in the interfacial film. When the phospholipid forms a liquid-condensed Gibbs monolayer, which is the case for dipalmitoylphosphatidylcholine (DPPC), the C2F5-labeled molecule remains trapped in the monolayer after removal of F-hexane. Investigations involve bubble profile analysis tensiometry (Gibbs films), Langmuir monolayers and microbubble experiments. The new phenomenon was utilized to incorporate a hypoxia biomarker, a C2F5-labeled nitrosoimidazole (EF5), in microbubble shells. This finding opens perspectives in the delivery of fluorinated therapeutic molecules and biomarkers.

Original publication

DOI

10.1002/anie.201502677

Type

Journal article

Journal

Angew Chem Int Ed Engl

Publication Date

13/07/2015

Volume

54

Pages

8402 - 8406

Keywords

drug delivery, fluorocarbons, microbubbles, molecular recognition, phospholipid interfaces, 1,2-Dipalmitoylphosphatidylcholine, Drug Delivery Systems, Fluorocarbons, Gases, Hydrocarbons, Fluorinated, Imidazoles, Microbubbles, Nitroso Compounds