First In Vivo and Phantom Imaging of Cyclotron-Produced (133)La as a Theranostic Radionuclide for (225)Ac and (135)La

Theranostic isotope pairs have gained recent clinical interest because they can be labeled to the same tracer and applied for diagnostic and therapeutic purposes. The goals of this study were to investigate cyclotron production of clinically relevant (133)La activities using natural and isotopically...

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Autores principales: Nelson, Bryce J.B., Ferguson, Simon, Wuest, Melinda, Wilson, John, Duke, M. John M., Richter, Susan, Soenke-Jans, Hans, Andersson, Jan D., Juengling, Freimut, Wuest, Frank
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Society of Nuclear Medicine 2022
Materias:
Basic Science Investigation
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8973294/
https://www.ncbi.nlm.nih.gov/pubmed/34385334
http://dx.doi.org/10.2967/jnumed.121.262459
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author Nelson, Bryce J.B.
Ferguson, Simon
Wuest, Melinda
Wilson, John
Duke, M. John M.
Richter, Susan
Soenke-Jans, Hans
Andersson, Jan D.
Juengling, Freimut
Wuest, Frank
author_facet Nelson, Bryce J.B.
Ferguson, Simon
Wuest, Melinda
Wilson, John
Duke, M. John M.
Richter, Susan
Soenke-Jans, Hans
Andersson, Jan D.
Juengling, Freimut
Wuest, Frank
author_sort Nelson, Bryce J.B.
collection PubMed
description Theranostic isotope pairs have gained recent clinical interest because they can be labeled to the same tracer and applied for diagnostic and therapeutic purposes. The goals of this study were to investigate cyclotron production of clinically relevant (133)La activities using natural and isotopically enriched barium target material, compare fundamental PET phantom imaging characteristics of (133)La with those of common PET radionuclides, and demonstrate in vivo preclinical PET tumor imaging using (133)La-PSMA-I&T. Methods: (133)La was produced on a 24-MeV cyclotron using an aluminum–indium sealed target with 150–200 mg of isotopically enriched (135)BaCO(3), (nat)BaCO(3), and (nat)Ba metal. A synthesis unit performed barium/lanthanum separation. DOTA, PSMA-I&T, and macropa were radiolabeled with (133)La. Derenzo and National Electrical Manufacturers Association phantom imaging was performed with (133)La, (132)La, and (89)Zr and compared with (18)F, (68)Ga, (44)Sc, and (64)Cu. In vivo preclinical imaging was performed with (133)La-PSMA-I&T on LNCaP tumor–bearing mice. Results: Proton irradiations for 100 µA·min at 23.3 MeV yielded 214 ± 7 MBq of (133)La and 28 ± 1 MBq of (135)La using (135)BaCO(3), 59 ± 2 MBq of (133)La and 35 ± 1 MBq of (135)La using (nat)BaCO(3), and 81 ± 3 MBq of (133)La and 48 ± 1 MBq of (135)La using (nat)Ba metal. At 11.9 MeV, (135)La yields were 81 ± 2 MBq, 6.8 ± 0.4 MBq, and 9.9 ± 0.5 MBq for (135)BaCO(3), (nat)BaCO(3), and (nat)Ba metal. BaCO(3) target material recovery was 95.4% ± 1.7%. National Electrical Manufacturers Association and Derenzo phantom imaging demonstrated that (133)La PET spatial resolution and scanner recovery coefficients were superior to those of (68)Ga and (132)La and comparable to those of (89)Zr. The apparent molar activity was 130 ± 15 GBq/µmol with DOTA, 73 ± 18 GBq/µmol with PSMA-I&T, and 206 ± 31 GBq/µmol with macropa. Preclinical PET imaging with (133)La-PSMA-I&T provided high-resolution tumor visualization with an SUV of 0.97 ± 0.17 at 60 min. Conclusion: With high-yield (133)La cyclotron production, recovery of BaCO(3) target material, and fundamental imaging characteristics superior to those of (68)Ga and (132)La, (133)La represents a promising radiometal candidate to provide high-resolution PET imaging as a PET/α-therapy theranostic pair with (225)Ac or as a PET/Auger electron therapy theranostic pair with (135)La.
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spelling pubmed-89732942022-04-15 First In Vivo and Phantom Imaging of Cyclotron-Produced (133)La as a Theranostic Radionuclide for (225)Ac and (135)La Nelson, Bryce J.B. Ferguson, Simon Wuest, Melinda Wilson, John Duke, M. John M. Richter, Susan Soenke-Jans, Hans Andersson, Jan D. Juengling, Freimut Wuest, Frank J Nucl Med Basic Science Investigation Theranostic isotope pairs have gained recent clinical interest because they can be labeled to the same tracer and applied for diagnostic and therapeutic purposes. The goals of this study were to investigate cyclotron production of clinically relevant (133)La activities using natural and isotopically enriched barium target material, compare fundamental PET phantom imaging characteristics of (133)La with those of common PET radionuclides, and demonstrate in vivo preclinical PET tumor imaging using (133)La-PSMA-I&T. Methods: (133)La was produced on a 24-MeV cyclotron using an aluminum–indium sealed target with 150–200 mg of isotopically enriched (135)BaCO(3), (nat)BaCO(3), and (nat)Ba metal. A synthesis unit performed barium/lanthanum separation. DOTA, PSMA-I&T, and macropa were radiolabeled with (133)La. Derenzo and National Electrical Manufacturers Association phantom imaging was performed with (133)La, (132)La, and (89)Zr and compared with (18)F, (68)Ga, (44)Sc, and (64)Cu. In vivo preclinical imaging was performed with (133)La-PSMA-I&T on LNCaP tumor–bearing mice. Results: Proton irradiations for 100 µA·min at 23.3 MeV yielded 214 ± 7 MBq of (133)La and 28 ± 1 MBq of (135)La using (135)BaCO(3), 59 ± 2 MBq of (133)La and 35 ± 1 MBq of (135)La using (nat)BaCO(3), and 81 ± 3 MBq of (133)La and 48 ± 1 MBq of (135)La using (nat)Ba metal. At 11.9 MeV, (135)La yields were 81 ± 2 MBq, 6.8 ± 0.4 MBq, and 9.9 ± 0.5 MBq for (135)BaCO(3), (nat)BaCO(3), and (nat)Ba metal. BaCO(3) target material recovery was 95.4% ± 1.7%. National Electrical Manufacturers Association and Derenzo phantom imaging demonstrated that (133)La PET spatial resolution and scanner recovery coefficients were superior to those of (68)Ga and (132)La and comparable to those of (89)Zr. The apparent molar activity was 130 ± 15 GBq/µmol with DOTA, 73 ± 18 GBq/µmol with PSMA-I&T, and 206 ± 31 GBq/µmol with macropa. Preclinical PET imaging with (133)La-PSMA-I&T provided high-resolution tumor visualization with an SUV of 0.97 ± 0.17 at 60 min. Conclusion: With high-yield (133)La cyclotron production, recovery of BaCO(3) target material, and fundamental imaging characteristics superior to those of (68)Ga and (132)La, (133)La represents a promising radiometal candidate to provide high-resolution PET imaging as a PET/α-therapy theranostic pair with (225)Ac or as a PET/Auger electron therapy theranostic pair with (135)La. Society of Nuclear Medicine 2022-04 /pmc/articles/PMC8973294/ /pubmed/34385334 http://dx.doi.org/10.2967/jnumed.121.262459 Text en © 2022 by the Society of Nuclear Medicine and Molecular Imaging. https://creativecommons.org/licenses/by/4.0/Immediate Open Access: Creative Commons Attribution 4.0 International License (CC BY) allows users to share and adapt with attribution, excluding materials credited to previous publications. License: https://creativecommons.org/licenses/by/4.0/. Details: http://jnm.snmjournals.org/site/misc/permission.xhtml.
spellingShingle Basic Science Investigation
Nelson, Bryce J.B.
Ferguson, Simon
Wuest, Melinda
Wilson, John
Duke, M. John M.
Richter, Susan
Soenke-Jans, Hans
Andersson, Jan D.
Juengling, Freimut
Wuest, Frank
First In Vivo and Phantom Imaging of Cyclotron-Produced (133)La as a Theranostic Radionuclide for (225)Ac and (135)La
title First In Vivo and Phantom Imaging of Cyclotron-Produced (133)La as a Theranostic Radionuclide for (225)Ac and (135)La
title_full First In Vivo and Phantom Imaging of Cyclotron-Produced (133)La as a Theranostic Radionuclide for (225)Ac and (135)La
title_fullStr First In Vivo and Phantom Imaging of Cyclotron-Produced (133)La as a Theranostic Radionuclide for (225)Ac and (135)La
title_full_unstemmed First In Vivo and Phantom Imaging of Cyclotron-Produced (133)La as a Theranostic Radionuclide for (225)Ac and (135)La
title_short First In Vivo and Phantom Imaging of Cyclotron-Produced (133)La as a Theranostic Radionuclide for (225)Ac and (135)La
title_sort first in vivo and phantom imaging of cyclotron-produced (133)la as a theranostic radionuclide for (225)ac and (135)la
topic Basic Science Investigation
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8973294/
https://www.ncbi.nlm.nih.gov/pubmed/34385334
http://dx.doi.org/10.2967/jnumed.121.262459
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