Toward the Optimization of (+)-[11C]PHNO Synthesis: Time Reduction and Process Validation
(+)-[11C]PHNO, a dopamine D2/3 receptor agonistic radiotracer, is applied for investigating the dopaminergic system via positron emission tomography (PET). An improved understanding of neuropsychiatric disorders associated with dysfunctions in the dopamine system and the underlying mechanism is a ne...
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| Published in | Contrast media and molecular imaging Vol. 2019; no. 2019; pp. 1 - 13 |
|---|---|
| Main Authors | , , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Cairo, Egypt
Hindawi Publishing Corporation
2019
Hindawi Hindawi Limited |
| Subjects | |
| Online Access | Get full text |
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| Abstract | (+)-[11C]PHNO, a dopamine D2/3 receptor agonistic radiotracer, is applied for investigating the dopaminergic system via positron emission tomography (PET). An improved understanding of neuropsychiatric disorders associated with dysfunctions in the dopamine system and the underlying mechanism is a necessity in order to promote the development of new potential therapeutic drugs. In contrast to other broadly applied 11C-radiopharmaceuticals, the production of this radiotracer requires a challenging four-step radiosynthesis involving harsh reaction conditions and reactants as well as an inert atmosphere. Consequently, the production is prone to errors and troubleshooting after failed radiosyntheses remains time consuming. Hence, we aimed to optimize the radiosynthesis of (+)-[11C]PHNO for achieving better activity yields without loss of product quality. Therefore, we synthesized (+)-[11C]PHNO and omitted all heating and cooling steps leading to higher activity yields. As a result, radiosynthesis fully conducted at room temperature led to a time-reduced production procedure that saves about 5 min, which is an appreciable decay-prevention of around 15% of the activity yield. Additionally, we established a troubleshooting protocol by investigating reaction intermediates, byproducts, and impurities. Indeed, partial runs enabled the assignment of byproducts to their associated error source. Finally, we were able to generate a decision tree facilitating error detection in (+)-[11C]PHNO radiosynthesis. |
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| AbstractList | (+)-[
C]PHNO, a dopamine D
receptor agonistic radiotracer, is applied for investigating the dopaminergic system via positron emission tomography (PET). An improved understanding of neuropsychiatric disorders associated with dysfunctions in the dopamine system and the underlying mechanism is a necessity in order to promote the development of new potential therapeutic drugs. In contrast to other broadly applied
C-radiopharmaceuticals, the production of this radiotracer requires a challenging four-step radiosynthesis involving harsh reaction conditions and reactants as well as an inert atmosphere. Consequently, the production is prone to errors and troubleshooting after failed radiosyntheses remains time consuming. Hence, we aimed to optimize the radiosynthesis of (+)-[
C]PHNO for achieving better activity yields without loss of product quality. Therefore, we synthesized (+)-[
C]PHNO and omitted all heating and cooling steps leading to higher activity yields. As a result, radiosynthesis fully conducted at room temperature led to a time-reduced production procedure that saves about 5 min, which is an appreciable decay-prevention of around 15% of the activity yield. Additionally, we established a troubleshooting protocol by investigating reaction intermediates, byproducts, and impurities. Indeed, partial runs enabled the assignment of byproducts to their associated error source. Finally, we were able to generate a decision tree facilitating error detection in (+)-[
C]PHNO radiosynthesis. (+)-[ 11 C]PHNO, a dopamine D 2/3 receptor agonistic radiotracer, is applied for investigating the dopaminergic system via positron emission tomography (PET). An improved understanding of neuropsychiatric disorders associated with dysfunctions in the dopamine system and the underlying mechanism is a necessity in order to promote the development of new potential therapeutic drugs. In contrast to other broadly applied 11 C-radiopharmaceuticals, the production of this radiotracer requires a challenging four-step radiosynthesis involving harsh reaction conditions and reactants as well as an inert atmosphere. Consequently, the production is prone to errors and troubleshooting after failed radiosyntheses remains time consuming. Hence, we aimed to optimize the radiosynthesis of (+)-[ 11 C]PHNO for achieving better activity yields without loss of product quality. Therefore, we synthesized (+)-[ 11 C]PHNO and omitted all heating and cooling steps leading to higher activity yields. As a result, radiosynthesis fully conducted at room temperature led to a time-reduced production procedure that saves about 5 min, which is an appreciable decay-prevention of around 15% of the activity yield. Additionally, we established a troubleshooting protocol by investigating reaction intermediates, byproducts, and impurities. Indeed, partial runs enabled the assignment of byproducts to their associated error source. Finally, we were able to generate a decision tree facilitating error detection in (+)-[ 11 C]PHNO radiosynthesis. (+)-[11C]PHNO, a dopamine D2/3 receptor agonistic radiotracer, is applied for investigating the dopaminergic system via positron emission tomography (PET). An improved understanding of neuropsychiatric disorders associated with dysfunctions in the dopamine system and the underlying mechanism is a necessity in order to promote the development of new potential therapeutic drugs. In contrast to other broadly applied 11C-radiopharmaceuticals, the production of this radiotracer requires a challenging four-step radiosynthesis involving harsh reaction conditions and reactants as well as an inert atmosphere. Consequently, the production is prone to errors and troubleshooting after failed radiosyntheses remains time consuming. Hence, we aimed to optimize the radiosynthesis of (+)-[11C]PHNO for achieving better activity yields without loss of product quality. Therefore, we synthesized (+)-[11C]PHNO and omitted all heating and cooling steps leading to higher activity yields. As a result, radiosynthesis fully conducted at room temperature led to a time-reduced production procedure that saves about 5 min, which is an appreciable decay-prevention of around 15% of the activity yield. Additionally, we established a troubleshooting protocol by investigating reaction intermediates, byproducts, and impurities. Indeed, partial runs enabled the assignment of byproducts to their associated error source. Finally, we were able to generate a decision tree facilitating error detection in (+)-[11C]PHNO radiosynthesis. |
| Author | Weidenauer, Ana Philippe, Cécile Hacker, Marcus Wadsak, W. Pichler, Verena Nics, Lukas Willeit, Matthäus Rami-Mark, Christina Berroterán-Infante, Neydher Pallitsch, Katharina Pfaff, Sarah Sauerzopf, Ulrich Mitterhauser, Markus |
| AuthorAffiliation | 2 Institute of Organic Chemistry, University of Vienna, Vienna, Austria 4 Ludwig-Boltzmann-Institute Applied Diagnostics, Vienna, Austria 3 Department of Psychiatry and Psychotherapy, Division of General Psychiatry, Medical University of Vienna, Vienna, Austria 1 Department of Biomedical Imaging and Image-guided Therapy, Division of Nuclear Medicine, Medical University of Vienna, Vienna, Austria 5 CBmed GmbH-Center for Biomarker Research in Medicine, Graz, Austria |
| AuthorAffiliation_xml | – name: 3 Department of Psychiatry and Psychotherapy, Division of General Psychiatry, Medical University of Vienna, Vienna, Austria – name: 5 CBmed GmbH-Center for Biomarker Research in Medicine, Graz, Austria – name: 1 Department of Biomedical Imaging and Image-guided Therapy, Division of Nuclear Medicine, Medical University of Vienna, Vienna, Austria – name: 2 Institute of Organic Chemistry, University of Vienna, Vienna, Austria – name: 4 Ludwig-Boltzmann-Institute Applied Diagnostics, Vienna, Austria |
| Author_xml | – sequence: 1 fullname: Mitterhauser, Markus – sequence: 2 fullname: Hacker, Marcus – sequence: 3 fullname: Wadsak, W. – sequence: 4 fullname: Pichler, Verena – sequence: 5 fullname: Sauerzopf, Ulrich – sequence: 6 fullname: Weidenauer, Ana – sequence: 7 fullname: Rami-Mark, Christina – sequence: 8 fullname: Pallitsch, Katharina – sequence: 9 fullname: Berroterán-Infante, Neydher – sequence: 10 fullname: Nics, Lukas – sequence: 11 fullname: Philippe, Cécile – sequence: 12 fullname: Pfaff, Sarah – sequence: 13 fullname: Willeit, Matthäus |
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| Cites_doi | 10.1155/2011/403039 10.1093/schbul/sbx042 10.1073/pnas.94.6.2569 10.1002/syn.21535 10.1038/sj.npp.1301400 10.1021/jm050155n 10.1002/jlcr.2580230507 10.1016/0883-2889(90)90007-4 10.1002/jlcr.2580260128 10.1002/syn.890140403 10.1212/wnl.0000000000002285 10.1111/j.1471-4159.2006.03840.x 10.1021/cr0782426 10.1016/j.biopsych.2005.09.017 10.1038/npp.2016.115 10.1007/s11682-017-9800-1 10.1002/hbm.20392 10.1016/j.apradiso.2013.07.023 10.1016/j.apradiso.2011.09.018 10.1016/j.nucmedbio.2017.09.004 10.1016/j.biopsych.2011.10.009 10.1016/j.nucmedbio.2017.11.006 |
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| Copyright | Copyright © 2019 Sarah Pfaff et al. Copyright © 2019 Sarah Pfaff et al. This is an open access article distributed under the Creative Commons Attribution License (the “License”), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License. http://creativecommons.org/licenses/by/4.0 Copyright © 2019 Sarah Pfaff et al. 2019 |
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| Snippet | (+)-[11C]PHNO, a dopamine D2/3 receptor agonistic radiotracer, is applied for investigating the dopaminergic system via positron emission tomography (PET). An... (+)-[ C]PHNO, a dopamine D receptor agonistic radiotracer, is applied for investigating the dopaminergic system via positron emission tomography (PET). An... (+)-[ 11 C]PHNO, a dopamine D 2/3 receptor agonistic radiotracer, is applied for investigating the dopaminergic system via positron emission tomography (PET).... |
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| SubjectTerms | Aluminum Attention Deficit Disorder with Hyperactivity - diagnostic imaging Automation Brain - diagnostic imaging Brain - pathology Byproducts Carbon Radioisotopes - chemistry Carbon Radioisotopes - pharmacology Chloride Decision trees Dopamine Dopamine D2 receptors Drug development Emission analysis Error detection Humans Impurities Inert atmospheres Intermediates Mental disorders Nuclear medicine Optimization Parkinson Disease - diagnostic imaging Positron emission Positron emission tomography Positron-Emission Tomography - methods Radioactive tracers Radiopharmaceuticals - chemical synthesis Radiopharmaceuticals - chemistry Radiopharmaceuticals - pharmacology Receptors, Dopamine D2 - agonists Receptors, Dopamine D2 - chemistry Receptors, Dopamine D2 - isolation & purification Schizophrenia Schizophrenia - diagnostic imaging Sensors Temperature Tomography Troubleshooting |
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| Title | Toward the Optimization of (+)-[11C]PHNO Synthesis: Time Reduction and Process Validation |
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