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Single Fluorinated Agent for Multiplexed 19 F‐MRI with Micromolar Detectability Based on Dynamic Exchange
Author(s) -
ShustermanKrush Ronit,
Tirukoti Nishanth D.,
Bandela Anil Kumar,
Avram Liat,
AlloucheAr Hyla,
Cai Xiaoyang,
Gibb Bruce C.,
BarShir Am
Publication year - 2021
Publication title -
angewandte chemie
Language(s) - English
Resource type - Journals
eISSN - 1521-3757
pISSN - 0044-8249
DOI - 10.1002/ange.202100427
Subject(s) - nuclear magnetic resonance , spins , multiplexing , chemistry , magnetic resonance imaging , supramolecular chemistry , biocompatible material , nanotechnology , materials science , computer science , biomedical engineering , physics , molecule , medicine , radiology , telecommunications , organic chemistry , condensed matter physics
The weak thermal polarization of nuclear spins limits the sensitivity of MRI, even for MR‐sensitive nuclei as fluorine‐19. Therefore, despite being the source of inspiration for the development of background‐free MRI for various applications, including for multiplexed imaging, the inability to map very low concentrations of targets using 19 F‐MRI raises the need to further enhance this platform's capabilities. Here, we employ the principles of CEST‐MRI in 19 F‐MRI to obtain a 900‐fold signal amplification of a biocompatible fluorinated agent, which can be presented in a “multicolor” fashion. Capitalizing on the dynamic interactions in host–guest supramolecular assemblies in an approach termed GEST, we demonstrate that an inhalable fluorinated anesthetic can be used as a single 19 F‐probe for the concurrent detection of micromolar levels of two targets, with potential in vivo translatability. Further extending GEST with new designs could expand the applicability of 19 F‐MRI to the mapping of targets that have so‐far remained non‐detectable.