Cardiovascular Molecular Imaging With Fluorine-19 MRI: The Road to the Clinic
Copyright policy )Cardiovascular Molecular Imaging With Fluorine-19 MRI: The Road to the Clinic
Fluorine-19 ( 19 F) magnetic resonance imaging is a unique quantitative molecular imaging modality that makes use of an injectable fluorine-containing tracer that generates the only visible 19 F signal in the body. This hot spot imaging technique has recently been used to characterize a wide array of cardiovascular diseases and seen a broad range of technical improvements. Concurrently, its potential to be translated to the clinical setting is being explored. This review provides an overview of this emerging field and demonstrates its diagnostic potential, which shows promise for clinical translation. We will describe 19 F magnetic resonance imaging hardware, pulse sequences, and tracers, followed by an overview of cardiovascular applications. Finally, the challenges on the road to clinical translation are discussed.
- Eindhoven University of Technology Netherlands
- Leibniz Association Germany
- UNIL FBM Groupe I CHUV Switzerland
- Radboud University Nijmegen Netherlands
- University Hospital of Lausanne Switzerland
Cardiovascular Diseases, Humans; Fluorine; Cardiovascular System/diagnostic imaging; Cardiovascular Diseases/diagnostic imaging; Molecular Imaging; cardiovascular disease; cell tracking; fluorine-19; inflammation; magnetic resonance imaging; thrombosis; translational research, biomedical, Radboud University Medical Center, Humans, Fluorine, Cardiovascular System, Radboudumc 19: Nanomedicine Internal Medicine, Molecular Imaging
Cardiovascular Diseases, Humans; Fluorine; Cardiovascular System/diagnostic imaging; Cardiovascular Diseases/diagnostic imaging; Molecular Imaging; cardiovascular disease; cell tracking; fluorine-19; inflammation; magnetic resonance imaging; thrombosis; translational research, biomedical, Radboud University Medical Center, Humans, Fluorine, Cardiovascular System, Radboudumc 19: Nanomedicine Internal Medicine, Molecular Imaging
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