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Solid-phase extraction of $^{225}$Ac using ion-imprinted resin and $^{243}$Am as a radioactive tracer for internal dosimetry and incorporation measurements
Actinium-225 is a highly radiotoxic alpha-emitting radionuclide, which is currently in the spotlight owing to its promising radiotherapeutic applications in nuclear medicine. Personnel involved in the production and handling of actinium-225 is exposed to a risk of accidental incorporation of this ra...
Autores principales: | , , , |
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Lenguaje: | eng |
Publicado: |
2022
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Materias: | |
Acceso en línea: | https://dx.doi.org/10.1016/j.aca.2021.339421 http://cds.cern.ch/record/2800204 |
_version_ | 1780972618016358400 |
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author | Cusnir, Ruslan Froidevaux, Pascal Carbonez, Pierre Straub, Marietta |
author_facet | Cusnir, Ruslan Froidevaux, Pascal Carbonez, Pierre Straub, Marietta |
author_sort | Cusnir, Ruslan |
collection | CERN |
description | Actinium-225 is a highly radiotoxic alpha-emitting radionuclide, which is currently in the spotlight owing to its promising radiotherapeutic applications in nuclear medicine. Personnel involved in the production and handling of actinium-225 is exposed to a risk of accidental incorporation of this radionuclide. Radiological protection regulations require regular monitoring of incorporation and internal dosimetry assessment for workers manipulating open radioactive sources. Urine is often used as a biological sample for measuring the incorporation of actinides, however it requires a radiochemical separation with a certified metrological tracer to enable quantitative determination. There is no stable, nor sufficiently long-lived radioactive isotopes of actinium to provide a metrological yield tracer. In this article, we propose an application of an ion-imprinted polymer resin to extract actinium-225 from urine employing americium-243 as a radioactive tracer. The radiochemical separation was followed by a quantitative determination with alpha-spectrometry. Solid-phase extraction of both actinides from urine using ion-imprinted polymer resin resulted in good radiochemical yields: 57.7 ± 16.5% (n = 17) for actinium-225 and 62.8 ± 18.0% (n = 17) for americium-243. Equivalent recoveries showed that americium-243 is a suitable yield tracer for the determination of actinium-225 with an ion-imprinted polymer resin. Combined with a different measurement technique, this method can be applied for the separation of other isotopes of actinium, such as actinium-227. |
id | cern-2800204 |
institution | Organización Europea para la Investigación Nuclear |
language | eng |
publishDate | 2022 |
record_format | invenio |
spelling | cern-28002042022-01-25T11:03:52Zdoi:10.1016/j.aca.2021.339421http://cds.cern.ch/record/2800204engCusnir, RuslanFroidevaux, PascalCarbonez, PierreStraub, MariettaSolid-phase extraction of $^{225}$Ac using ion-imprinted resin and $^{243}$Am as a radioactive tracer for internal dosimetry and incorporation measurementsHealth Physics and Radiation EffectsActinium-225 is a highly radiotoxic alpha-emitting radionuclide, which is currently in the spotlight owing to its promising radiotherapeutic applications in nuclear medicine. Personnel involved in the production and handling of actinium-225 is exposed to a risk of accidental incorporation of this radionuclide. Radiological protection regulations require regular monitoring of incorporation and internal dosimetry assessment for workers manipulating open radioactive sources. Urine is often used as a biological sample for measuring the incorporation of actinides, however it requires a radiochemical separation with a certified metrological tracer to enable quantitative determination. There is no stable, nor sufficiently long-lived radioactive isotopes of actinium to provide a metrological yield tracer. In this article, we propose an application of an ion-imprinted polymer resin to extract actinium-225 from urine employing americium-243 as a radioactive tracer. The radiochemical separation was followed by a quantitative determination with alpha-spectrometry. Solid-phase extraction of both actinides from urine using ion-imprinted polymer resin resulted in good radiochemical yields: 57.7 ± 16.5% (n = 17) for actinium-225 and 62.8 ± 18.0% (n = 17) for americium-243. Equivalent recoveries showed that americium-243 is a suitable yield tracer for the determination of actinium-225 with an ion-imprinted polymer resin. Combined with a different measurement technique, this method can be applied for the separation of other isotopes of actinium, such as actinium-227.oai:cds.cern.ch:28002042022 |
spellingShingle | Health Physics and Radiation Effects Cusnir, Ruslan Froidevaux, Pascal Carbonez, Pierre Straub, Marietta Solid-phase extraction of $^{225}$Ac using ion-imprinted resin and $^{243}$Am as a radioactive tracer for internal dosimetry and incorporation measurements |
title | Solid-phase extraction of $^{225}$Ac using ion-imprinted resin and $^{243}$Am as a radioactive tracer for internal dosimetry and incorporation measurements |
title_full | Solid-phase extraction of $^{225}$Ac using ion-imprinted resin and $^{243}$Am as a radioactive tracer for internal dosimetry and incorporation measurements |
title_fullStr | Solid-phase extraction of $^{225}$Ac using ion-imprinted resin and $^{243}$Am as a radioactive tracer for internal dosimetry and incorporation measurements |
title_full_unstemmed | Solid-phase extraction of $^{225}$Ac using ion-imprinted resin and $^{243}$Am as a radioactive tracer for internal dosimetry and incorporation measurements |
title_short | Solid-phase extraction of $^{225}$Ac using ion-imprinted resin and $^{243}$Am as a radioactive tracer for internal dosimetry and incorporation measurements |
title_sort | solid-phase extraction of $^{225}$ac using ion-imprinted resin and $^{243}$am as a radioactive tracer for internal dosimetry and incorporation measurements |
topic | Health Physics and Radiation Effects |
url | https://dx.doi.org/10.1016/j.aca.2021.339421 http://cds.cern.ch/record/2800204 |
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