Cationic fluorinated micelles for cell labeling and 19F-MR imaging
Magnetic resonance imaging (MRI) relies on appropriate contrast agents, especially for visualizing transplanted cells within host tissue. In recent years, compounds containing fluorine-19 have gained significant attention as MRI probe, particularly in dual 1 H/ 19 F-MR imaging. However, various fact...
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| Published in | Scientific reports Vol. 14; no. 1; pp. 22613 - 11 |
|---|---|
| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
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London
Nature Publishing Group UK
30.09.2024
Nature Publishing Group Nature Portfolio |
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| Abstract | Magnetic resonance imaging (MRI) relies on appropriate contrast agents, especially for visualizing transplanted cells within host tissue. In recent years, compounds containing fluorine-19 have gained significant attention as MRI probe, particularly in dual
1
H/
19
F-MR imaging. However, various factors affecting probe sensitivity, such as fluorine content and the equivalency of fluorine atoms, must be considered. In this study, we synthesized fluorinated micelles with adjustable surface positive charge density and investigated their physicochemical properties and MRI efficacy in phantoms and labeled cells. While the micelles exhibited clear signals in
19
F-MR spectra and imaging, the concentrations required for MRI visualization of labeled cells were relatively high, adversely affecting cell viability. Despite their favourable physicochemical properties, achieving higher labeling rates without compromising cell viability during labeling remains a challenge for potential in vivo applications. |
|---|---|
| AbstractList | Abstract Magnetic resonance imaging (MRI) relies on appropriate contrast agents, especially for visualizing transplanted cells within host tissue. In recent years, compounds containing fluorine-19 have gained significant attention as MRI probe, particularly in dual 1H/19F-MR imaging. However, various factors affecting probe sensitivity, such as fluorine content and the equivalency of fluorine atoms, must be considered. In this study, we synthesized fluorinated micelles with adjustable surface positive charge density and investigated their physicochemical properties and MRI efficacy in phantoms and labeled cells. While the micelles exhibited clear signals in 19F-MR spectra and imaging, the concentrations required for MRI visualization of labeled cells were relatively high, adversely affecting cell viability. Despite their favourable physicochemical properties, achieving higher labeling rates without compromising cell viability during labeling remains a challenge for potential in vivo applications. Magnetic resonance imaging (MRI) relies on appropriate contrast agents, especially for visualizing transplanted cells within host tissue. In recent years, compounds containing fluorine-19 have gained significant attention as MRI probe, particularly in dual 1H/19F-MR imaging. However, various factors affecting probe sensitivity, such as fluorine content and the equivalency of fluorine atoms, must be considered. In this study, we synthesized fluorinated micelles with adjustable surface positive charge density and investigated their physicochemical properties and MRI efficacy in phantoms and labeled cells. While the micelles exhibited clear signals in 19F-MR spectra and imaging, the concentrations required for MRI visualization of labeled cells were relatively high, adversely affecting cell viability. Despite their favourable physicochemical properties, achieving higher labeling rates without compromising cell viability during labeling remains a challenge for potential in vivo applications.Magnetic resonance imaging (MRI) relies on appropriate contrast agents, especially for visualizing transplanted cells within host tissue. In recent years, compounds containing fluorine-19 have gained significant attention as MRI probe, particularly in dual 1H/19F-MR imaging. However, various factors affecting probe sensitivity, such as fluorine content and the equivalency of fluorine atoms, must be considered. In this study, we synthesized fluorinated micelles with adjustable surface positive charge density and investigated their physicochemical properties and MRI efficacy in phantoms and labeled cells. While the micelles exhibited clear signals in 19F-MR spectra and imaging, the concentrations required for MRI visualization of labeled cells were relatively high, adversely affecting cell viability. Despite their favourable physicochemical properties, achieving higher labeling rates without compromising cell viability during labeling remains a challenge for potential in vivo applications. Magnetic resonance imaging (MRI) relies on appropriate contrast agents, especially for visualizing transplanted cells within host tissue. In recent years, compounds containing fluorine-19 have gained significant attention as MRI probe, particularly in dual 1 H/ 19 F-MR imaging. However, various factors affecting probe sensitivity, such as fluorine content and the equivalency of fluorine atoms, must be considered. In this study, we synthesized fluorinated micelles with adjustable surface positive charge density and investigated their physicochemical properties and MRI efficacy in phantoms and labeled cells. While the micelles exhibited clear signals in 19 F-MR spectra and imaging, the concentrations required for MRI visualization of labeled cells were relatively high, adversely affecting cell viability. Despite their favourable physicochemical properties, achieving higher labeling rates without compromising cell viability during labeling remains a challenge for potential in vivo applications. Magnetic resonance imaging (MRI) relies on appropriate contrast agents, especially for visualizing transplanted cells within host tissue. In recent years, compounds containing fluorine-19 have gained significant attention as MRI probe, particularly in dual 1H/19F-MR imaging. However, various factors affecting probe sensitivity, such as fluorine content and the equivalency of fluorine atoms, must be considered. In this study, we synthesized fluorinated micelles with adjustable surface positive charge density and investigated their physicochemical properties and MRI efficacy in phantoms and labeled cells. While the micelles exhibited clear signals in 19F-MR spectra and imaging, the concentrations required for MRI visualization of labeled cells were relatively high, adversely affecting cell viability. Despite their favourable physicochemical properties, achieving higher labeling rates without compromising cell viability during labeling remains a challenge for potential in vivo applications. |
| ArticleNumber | 22613 |
| Author | Panakkal, Vyshakh Manayath Jiráková, Klára Jirák, Daniel Jirát-Ziółkowska, Natalia Havlíček, Dominik Sedláček, Ondřej |
| Author_xml | – sequence: 1 givenname: Natalia surname: Jirát-Ziółkowska fullname: Jirát-Ziółkowska, Natalia organization: Institute for Clinical and Experimental Medicine, Institute of Biophysics and Informatics, First Faculty of Medicine, Charles University – sequence: 2 givenname: Vyshakh Manayath surname: Panakkal fullname: Panakkal, Vyshakh Manayath organization: Department of Physical and Macromolecular Chemistry, Faculty of Science, Charles University – sequence: 3 givenname: Klára surname: Jiráková fullname: Jiráková, Klára organization: Institute for Clinical and Experimental Medicine, Third Faculty of Medicine, Charles University – sequence: 4 givenname: Dominik surname: Havlíček fullname: Havlíček, Dominik organization: Institute for Clinical and Experimental Medicine, Institute of Biophysics and Informatics, First Faculty of Medicine, Charles University – sequence: 5 givenname: Ondřej surname: Sedláček fullname: Sedláček, Ondřej organization: Department of Physical and Macromolecular Chemistry, Faculty of Science, Charles University – sequence: 6 givenname: Daniel surname: Jirák fullname: Jirák, Daniel email: daji@ikem.cz organization: Institute for Clinical and Experimental Medicine, Institute of Biophysics and Informatics, First Faculty of Medicine, Charles University, Faculty of Health Studies, Technical University of Liberec |
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| Keywords | F magnetic resonance spectroscopy Fluorinated micelles Cell labeling F magnetic resonance imaging |
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| Snippet | Magnetic resonance imaging (MRI) relies on appropriate contrast agents, especially for visualizing transplanted cells within host tissue. In recent years,... Abstract Magnetic resonance imaging (MRI) relies on appropriate contrast agents, especially for visualizing transplanted cells within host tissue. In recent... |
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| SubjectTerms | 19F magnetic resonance imaging 19F magnetic resonance spectroscopy 639/301 639/638 Aluminum Cell labeling Cell viability Cells Contrast agents Contrast media Efficiency Fluorinated micelles Fluorine Humanities and Social Sciences Labeling Magnetic resonance imaging Micelles multidisciplinary Nanoparticles Perfluorocarbons Physicochemical properties Polymerization Science Science (multidisciplinary) Visualization |
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| Title | Cationic fluorinated micelles for cell labeling and 19F-MR imaging |
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