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Production of Mass-Separated Erbium-169 Towards the First Preclinical in vitro Investigations
The $\beta^-$-particle-emitting erbium-169 is a potential radionuclide toward therapy of metastasized cancer diseases. It can be produced in nuclear research reactors, irradiating isotopically-enriched $^{168}$Er$_2$O$_3$. This path, however, is not suitable for receptor-targeted radionuclide therap...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , , |
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| Lenguaje: | eng |
| Publicado: |
2021
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| Materias: | |
| Acceso en línea: | https://dx.doi.org/10.3389/fmed.2021.643175 http://cds.cern.ch/record/2803707 |
| _version_ | 1780972808465022976 |
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| author | Talip, Zeynep Borgna, Francesca Müller, Cristina Ulrich, Jiri Duchemin, Charlotte Ramos, Joao P Stora, Thierry Köster, Ulli Nedjadi, Youcef Gadelshin, Vadim Fedosseev, Valentin N Juget, Frederic Bailat, Claude Fankhauser, Adelheid Wilkins, Shane G Lambert, Laura Marsh, Bruce Fedorov, Dmitry Chevallay, Eric Fernier, Pascal Schibli, Roger van der Meulen, Nicholas P |
| author_facet | Talip, Zeynep Borgna, Francesca Müller, Cristina Ulrich, Jiri Duchemin, Charlotte Ramos, Joao P Stora, Thierry Köster, Ulli Nedjadi, Youcef Gadelshin, Vadim Fedosseev, Valentin N Juget, Frederic Bailat, Claude Fankhauser, Adelheid Wilkins, Shane G Lambert, Laura Marsh, Bruce Fedorov, Dmitry Chevallay, Eric Fernier, Pascal Schibli, Roger van der Meulen, Nicholas P |
| author_sort | Talip, Zeynep |
| collection | CERN |
| description | The $\beta^-$-particle-emitting erbium-169 is a potential radionuclide toward therapy of
metastasized cancer diseases. It can be produced in nuclear research reactors,
irradiating isotopically-enriched $^{168}$Er$_2$O$_3$. This path, however, is not suitable for
receptor-targeted radionuclide therapy, where high specific molar activities are required.
In this study, an electromagnetic isotope separation technique was applied after neutron
irradiation to boost the specific activity by separating $^{169}$Er from $^{168}$Er targets. The
separation efficiency increased up to 0.5% using resonant laser ionization. A subsequent
chemical purification process was developed as well as activity standardization of the
radionuclidically pure $^{169}$Er. The quality of the $^{169}$Er product permitted radiolabeling
and pre-clinical studies. A preliminary in vitro experiment was accomplished, using a
$^{169}$Er-PSMA-617, to show the potential of $^{169}$Er to reduce tumor cell viability |
| id | cern-2803707 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 2021 |
| record_format | invenio |
| spelling | cern-28037072022-03-14T15:18:33Zdoi:10.3389/fmed.2021.643175http://cds.cern.ch/record/2803707engTalip, ZeynepBorgna, FrancescaMüller, CristinaUlrich, JiriDuchemin, CharlotteRamos, Joao PStora, ThierryKöster, UlliNedjadi, YoucefGadelshin, VadimFedosseev, Valentin NJuget, FredericBailat, ClaudeFankhauser, AdelheidWilkins, Shane GLambert, LauraMarsh, BruceFedorov, DmitryChevallay, EricFernier, PascalSchibli, Rogervan der Meulen, Nicholas PProduction of Mass-Separated Erbium-169 Towards the First Preclinical in vitro InvestigationsHealth Physics and Radiation EffectsThe $\beta^-$-particle-emitting erbium-169 is a potential radionuclide toward therapy of metastasized cancer diseases. It can be produced in nuclear research reactors, irradiating isotopically-enriched $^{168}$Er$_2$O$_3$. This path, however, is not suitable for receptor-targeted radionuclide therapy, where high specific molar activities are required. In this study, an electromagnetic isotope separation technique was applied after neutron irradiation to boost the specific activity by separating $^{169}$Er from $^{168}$Er targets. The separation efficiency increased up to 0.5% using resonant laser ionization. A subsequent chemical purification process was developed as well as activity standardization of the radionuclidically pure $^{169}$Er. The quality of the $^{169}$Er product permitted radiolabeling and pre-clinical studies. A preliminary in vitro experiment was accomplished, using a $^{169}$Er-PSMA-617, to show the potential of $^{169}$Er to reduce tumor cell viabilityoai:cds.cern.ch:28037072021 |
| spellingShingle | Health Physics and Radiation Effects Talip, Zeynep Borgna, Francesca Müller, Cristina Ulrich, Jiri Duchemin, Charlotte Ramos, Joao P Stora, Thierry Köster, Ulli Nedjadi, Youcef Gadelshin, Vadim Fedosseev, Valentin N Juget, Frederic Bailat, Claude Fankhauser, Adelheid Wilkins, Shane G Lambert, Laura Marsh, Bruce Fedorov, Dmitry Chevallay, Eric Fernier, Pascal Schibli, Roger van der Meulen, Nicholas P Production of Mass-Separated Erbium-169 Towards the First Preclinical in vitro Investigations |
| title | Production of Mass-Separated Erbium-169 Towards the First Preclinical in vitro Investigations |
| title_full | Production of Mass-Separated Erbium-169 Towards the First Preclinical in vitro Investigations |
| title_fullStr | Production of Mass-Separated Erbium-169 Towards the First Preclinical in vitro Investigations |
| title_full_unstemmed | Production of Mass-Separated Erbium-169 Towards the First Preclinical in vitro Investigations |
| title_short | Production of Mass-Separated Erbium-169 Towards the First Preclinical in vitro Investigations |
| title_sort | production of mass-separated erbium-169 towards the first preclinical in vitro investigations |
| topic | Health Physics and Radiation Effects |
| url | https://dx.doi.org/10.3389/fmed.2021.643175 http://cds.cern.ch/record/2803707 |
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