Ilaria Tirotta scite author profile

(19)F-MRI offers unique opportunities to image diseases and track cells and therapeutic agents in vivo. Herein we report a superfluorinated molecular probe, herein called PERFECTA, possessing excellent cellular compatibility, and whose spectral properties, relaxation times, and sensitivity are promising for in vivo (19)F-MRI applications. The molecule, which bears 36 equivalent (19)F atoms and shows a single intense resonance peak, is easily synthesized via a simple one-step reaction and is formulated in water with high stability using trivial reagents and methods.

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Multispectral MRI with Dual Fluorinated Probes to Track Mononuclear Cell Activity in Mice

Chirizzi

Battista

Tirotta

et al. 2019

Radiology

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RI provides unique insights into disease pathogenesis. For molecular and cellular MRI, several contrast agents, each with different ability to enhance water proton relaxivity, have been exploited, including gadolinium chelates, iron oxide particles, and a family of chemical shift saturation transfer contrast agents (1-3). More recently, interest in fluorine 19 ( 19 F) emulsions has grown because fluorine MR signal from soft tissues is absent, and emulsions of fluorocarbon are biocompatible agents (4). Therefore, 19 F MRI is being explored for several applications, including cell tracking (4-8), molecular sensing (9,10) and for imaging inflammation in various diseased models (11)(12)(13)(14)(15)(16). Furthermore, since the 19 F MRI signal is directly related to the number of fluorine atoms, labeled cells can be quantified and monitored for a long time. Importantly, 19 F signal from fluorocarbons does not disturb standard proton ( 1 H) MRI and does not need precontrast data acquisition.Multicolor 19 F MRI has been previously attempted (8,17,18) with the use of fluorocarbons with multiresonance frequencies from nonequivalent fluorine nuclei that induce image artifacts and considerably limit the sensitivity and specificity of fluorine signal (19).We propose the use of two fluorocarbons with two clearly distinct resonance frequencies and a high number of chemically equivalent fluorine nuclei suitable for multispectral 19 F MRI. In particular, both 19 F nanoparticles were used to differentiate the normal and enhanced activity of phagocytosis after temporary inhibition of the colony stimulating factor 1 receptor (CSF1R), a key regulator of mononuclear cell production, differentiation, migration, and activation (20). CSF1R inhibition has been reported to be effective for depleting macrophages and microglial cells, which are rapidly regenerated within a few days after treatment interruption (21) and with an increase of phagocytic activity (20). In our study, we aimed to follow this

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Ilaria Tirotta

¹⁹F Magnetic Resonance Imaging (MRI): From Design of Materials to Clinical Applications

A Superfluorinated Molecular Probe for Highly Sensitive in Vivo¹⁹F-MRI

Multispectral MRI with Dual Fluorinated Probes to Track Mononuclear Cell Activity in Mice

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Ilaria Tirotta

19F Magnetic Resonance Imaging (MRI): From Design of Materials to Clinical Applications

A Superfluorinated Molecular Probe for Highly Sensitive in Vivo19F-MRI

Multispectral MRI with Dual Fluorinated Probes to Track Mononuclear Cell Activity in Mice

Contact Info

Product

Resources

About

¹⁹F Magnetic Resonance Imaging (MRI): From Design of Materials to Clinical Applications

A Superfluorinated Molecular Probe for Highly Sensitive in Vivo¹⁹F-MRI