An international multi-center investigation on the accuracy of radionuclide calibrators in nuclear medicine theragnostics

BACKGROUND: Personalized molecular radiotherapy based on theragnostics requires accurate quantification of the amount of radiopharmaceutical activity administered to patients both in diagnostic and therapeutic applications. This international multi-center study aims to investigate the clinical measu...

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Autores principales: Saldarriaga Vargas, Clarita, Bauwens, Matthias, Pooters, Ivo N. A., Pommé, Stefaan, Peters, Steffie M. B., Segbers, Marcel, Jentzen, Walter, Vogg, Andreas, van Velden, Floris H. P., Meyer Viol, Sebastiaan L., Gotthardt, Martin, Mottaghy, Felix M., Wildberger, Joachim E., Covens, Peter, Wierts, Roel
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Springer International Publishing 2020
Materias:
Original Research
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7683758/
https://www.ncbi.nlm.nih.gov/pubmed/33226485
http://dx.doi.org/10.1186/s40658-020-00338-3
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author Saldarriaga Vargas, Clarita
Bauwens, Matthias
Pooters, Ivo N. A.
Pommé, Stefaan
Peters, Steffie M. B.
Segbers, Marcel
Jentzen, Walter
Vogg, Andreas
van Velden, Floris H. P.
Meyer Viol, Sebastiaan L.
Gotthardt, Martin
Mottaghy, Felix M.
Wildberger, Joachim E.
Covens, Peter
Wierts, Roel
author_facet Saldarriaga Vargas, Clarita
Bauwens, Matthias
Pooters, Ivo N. A.
Pommé, Stefaan
Peters, Steffie M. B.
Segbers, Marcel
Jentzen, Walter
Vogg, Andreas
van Velden, Floris H. P.
Meyer Viol, Sebastiaan L.
Gotthardt, Martin
Mottaghy, Felix M.
Wildberger, Joachim E.
Covens, Peter
Wierts, Roel
author_sort Saldarriaga Vargas, Clarita
collection PubMed
description BACKGROUND: Personalized molecular radiotherapy based on theragnostics requires accurate quantification of the amount of radiopharmaceutical activity administered to patients both in diagnostic and therapeutic applications. This international multi-center study aims to investigate the clinical measurement accuracy of radionuclide calibrators for 7 radionuclides used in theragnostics: (99m)Tc, (111)In, (123)I, (124)I, (131)I, (177)Lu, and (90)Y. METHODS: In total, 32 radionuclide calibrators from 8 hospitals located in the Netherlands, Belgium, and Germany were tested. For each radionuclide, a set of four samples comprising two clinical containers (10-mL glass vial and 3-mL syringe) with two filling volumes were measured. The reference value of each sample was determined by two certified radioactivity calibration centers (SCK CEN and JRC) using two secondary standard ionization chambers. The deviation in measured activity with respect to the reference value was determined for each radionuclide and each measurement geometry. In addition, the combined systematic deviation of activity measurements in a theragnostic setting was evaluated for 5 clinically relevant theragnostic pairs: (131)I/(123)I, (131)I/(124)I, (177)Lu/(111)In, (90)Y/(99m)Tc, and (90)Y/(111)In. RESULTS: For (99m)Tc, (131)I, and (177)Lu, a small minority of measurements were not within ± 5% range from the reference activity (percentage of measurements not within range: (99m)Tc, 6%; (131)I, 14%; (177)Lu, 24%) and almost none were outside ± 10% range. However, for (111)In, (123)I, (124)I, and (90)Y, more than half of all measurements were not accurate within ± 5% range ((111)In, 51%; (123)I, 83%; (124)I, 63%; (90)Y, 61%) and not all were within ± 10% margin ((111)In, 22%; (123)I, 35%; (124)I, 15%; (90)Y, 25%). A large variability in measurement accuracy was observed between radionuclide calibrator systems, type of sample container (vial vs syringe), and source-geometry calibration/correction settings used. Consequently, we observed large combined deviations (percentage deviation > ± 10%) for the investigated theragnostic pairs, in particular for (90)Y/(111)In, (131)I/(123)I, and (90)Y/(99m)Tc. CONCLUSIONS: Our study shows that substantial over- or underestimation of therapeutic patient doses is likely to occur in a theragnostic setting due to errors in the assessment of radioactivity with radionuclide calibrators. These findings underline the importance of thorough validation of radionuclide calibrator systems for each clinically relevant radionuclide and sample geometry. SUPPLEMENTARY INFORMATION: The online version contains supplementary material available at 10.1186/s40658-020-00338-3.
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spelling pubmed-76837582020-11-27 An international multi-center investigation on the accuracy of radionuclide calibrators in nuclear medicine theragnostics Saldarriaga Vargas, Clarita Bauwens, Matthias Pooters, Ivo N. A. Pommé, Stefaan Peters, Steffie M. B. Segbers, Marcel Jentzen, Walter Vogg, Andreas van Velden, Floris H. P. Meyer Viol, Sebastiaan L. Gotthardt, Martin Mottaghy, Felix M. Wildberger, Joachim E. Covens, Peter Wierts, Roel EJNMMI Phys Original Research BACKGROUND: Personalized molecular radiotherapy based on theragnostics requires accurate quantification of the amount of radiopharmaceutical activity administered to patients both in diagnostic and therapeutic applications. This international multi-center study aims to investigate the clinical measurement accuracy of radionuclide calibrators for 7 radionuclides used in theragnostics: (99m)Tc, (111)In, (123)I, (124)I, (131)I, (177)Lu, and (90)Y. METHODS: In total, 32 radionuclide calibrators from 8 hospitals located in the Netherlands, Belgium, and Germany were tested. For each radionuclide, a set of four samples comprising two clinical containers (10-mL glass vial and 3-mL syringe) with two filling volumes were measured. The reference value of each sample was determined by two certified radioactivity calibration centers (SCK CEN and JRC) using two secondary standard ionization chambers. The deviation in measured activity with respect to the reference value was determined for each radionuclide and each measurement geometry. In addition, the combined systematic deviation of activity measurements in a theragnostic setting was evaluated for 5 clinically relevant theragnostic pairs: (131)I/(123)I, (131)I/(124)I, (177)Lu/(111)In, (90)Y/(99m)Tc, and (90)Y/(111)In. RESULTS: For (99m)Tc, (131)I, and (177)Lu, a small minority of measurements were not within ± 5% range from the reference activity (percentage of measurements not within range: (99m)Tc, 6%; (131)I, 14%; (177)Lu, 24%) and almost none were outside ± 10% range. However, for (111)In, (123)I, (124)I, and (90)Y, more than half of all measurements were not accurate within ± 5% range ((111)In, 51%; (123)I, 83%; (124)I, 63%; (90)Y, 61%) and not all were within ± 10% margin ((111)In, 22%; (123)I, 35%; (124)I, 15%; (90)Y, 25%). A large variability in measurement accuracy was observed between radionuclide calibrator systems, type of sample container (vial vs syringe), and source-geometry calibration/correction settings used. Consequently, we observed large combined deviations (percentage deviation > ± 10%) for the investigated theragnostic pairs, in particular for (90)Y/(111)In, (131)I/(123)I, and (90)Y/(99m)Tc. CONCLUSIONS: Our study shows that substantial over- or underestimation of therapeutic patient doses is likely to occur in a theragnostic setting due to errors in the assessment of radioactivity with radionuclide calibrators. These findings underline the importance of thorough validation of radionuclide calibrator systems for each clinically relevant radionuclide and sample geometry. SUPPLEMENTARY INFORMATION: The online version contains supplementary material available at 10.1186/s40658-020-00338-3. Springer International Publishing 2020-11-23 /pmc/articles/PMC7683758/ /pubmed/33226485 http://dx.doi.org/10.1186/s40658-020-00338-3 Text en © The Author(s) 2020 Open AccessThis article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if changes were made. The images or other third party material in this article are included in the article's Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article's Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http://creativecommons.org/licenses/by/4.0/.
spellingShingle Original Research
Saldarriaga Vargas, Clarita
Bauwens, Matthias
Pooters, Ivo N. A.
Pommé, Stefaan
Peters, Steffie M. B.
Segbers, Marcel
Jentzen, Walter
Vogg, Andreas
van Velden, Floris H. P.
Meyer Viol, Sebastiaan L.
Gotthardt, Martin
Mottaghy, Felix M.
Wildberger, Joachim E.
Covens, Peter
Wierts, Roel
An international multi-center investigation on the accuracy of radionuclide calibrators in nuclear medicine theragnostics
title An international multi-center investigation on the accuracy of radionuclide calibrators in nuclear medicine theragnostics
title_full An international multi-center investigation on the accuracy of radionuclide calibrators in nuclear medicine theragnostics
title_fullStr An international multi-center investigation on the accuracy of radionuclide calibrators in nuclear medicine theragnostics
title_full_unstemmed An international multi-center investigation on the accuracy of radionuclide calibrators in nuclear medicine theragnostics
title_short An international multi-center investigation on the accuracy of radionuclide calibrators in nuclear medicine theragnostics
title_sort international multi-center investigation on the accuracy of radionuclide calibrators in nuclear medicine theragnostics
topic Original Research
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7683758/
https://www.ncbi.nlm.nih.gov/pubmed/33226485
http://dx.doi.org/10.1186/s40658-020-00338-3
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