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Item Type: | Article |
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Title: | First in vivo fluorine-19 magnetic resonance imaging of the multiple sclerosis drug siponimod |
Creators Name: | Starke, L., Millward, J.M., Prinz, C., Sherazi, F., Waiczies, H., Lippert, C., Nazaré, M., Paul, F., Niendorf, T. and Waiczies, S. |
Abstract: | Theranostic imaging methods could greatly enhance our understanding of the distribution of CNS-acting drugs in individual patients. Fluorine-19 magnetic resonance imaging ((19)F MRI) offers the opportunity to localize and quantify fluorinated drugs non-invasively, without modifications and without the application of ionizing or other harmful radiation. Here we investigated siponimod, a sphingosine 1-phosphate (S(1)P) receptor antagonist indicated for secondary progressive multiple sclerosis (SPMS), to determine the feasibility of in vivo (19)F MR imaging of a disease modifying drug. METHODS: The (19)F MR properties of siponimod were characterized using spectroscopic techniques. Four MRI methods were investigated to determine which was the most sensitive for (19)F MR imaging of siponimod under biological conditions. We subsequently administered siponimod orally to 6 mice and acquired (19)F MR spectra and images in vivo directly after administration, and in ex vivo tissues. RESULTS: The (19)F transverse relaxation time of siponimod was 381 ms when dissolved in dimethyl sulfoxide, and substantially reduced to 5 ms when combined with serum, and to 20 ms in ex vivo liver tissue. Ultrashort echo time (UTE) imaging was determined to be the most sensitive MRI technique for imaging siponimod in a biological context and was used to map the drug in vivo in the stomach and liver. Ex vivo images in the liver and brain showed an inhomogeneous distribution of siponimod in both organs. In the brain, siponimod accumulated predominantly in the cerebrum but not the cerebellum. No secondary (19)F signals were detected from metabolites. From a translational perspective, we found that acquisitions done on a 3.0 T clinical MR scanner were 2.75 times more sensitive than acquisitions performed on a preclinical 9.4 T MR setup when taking changes in brain size across species into consideration and using equivalent relative spatial resolution. CONCLUSION: Siponimod can be imaged non-invasively using (19)F UTE MRI in the form administered to MS patients, without modification. This study lays the groundwork for more extensive preclinical and clinical investigations. With the necessary technical development, (19)F MRI has the potential to become a powerful theranostic tool for studying the time-course and distribution of CNS-acting drugs within the brain, especially during pathology. |
Keywords: | Siponimod, Multiple Sclerosis, MRI, Fluorine, Molecular Imaging, Animals, Mice |
Source: | Theranostics |
ISSN: | 1838-7640 |
Publisher: | Ivyspring International Publisher |
Volume: | 13 |
Number: | 4 |
Page Range: | 1217-1234 |
Date: | 5 February 2023 |
Official Publication: | https://doi.org/10.7150/thno.77041 |
PubMed: | View item in PubMed |
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