Microfluidic radiosynthesis of [18F]FEMPT, a high affinity PET radiotracer for imaging serotonin receptors

Beilstein Journal of Organic Chemistry ◽

10.3762/bjoc.13.285 ◽

2017 ◽

Vol 13 ◽

pp. 2922-2927 ◽

Cited By ~ 3

Author(s):

Thomas Lee Collier ◽

Steven H Liang ◽

J John Mann ◽

Neil Vasdev ◽

J S Dileep Kumar

Keyword(s):

Serotonin Receptors ◽

Continuous Flow ◽

Partial Agonist ◽

Reaction Times ◽

Radiochemical Yield ◽

Reaction Parameters ◽

High Affinity ◽

Molar Activity ◽

Chemical Purity ◽

Radiochemical Yields

Continuous-flow microfluidics has shown increased applications in radiochemistry over the last decade, particularly for both pre-clinical and clinical production of fluorine-18 labeled radiotracers. The main advantages of microfluidics are the reduction in reaction times and consumption of reagents that often result in increased radiochemical yields and rapid optimization of reaction parameters for 18F-labeling. In this paper, we report on the two-step microfluidic radiosynthesis of the high affinity partial agonist of the serotonin 1A receptor, [18F]FEMPT (pK i = 9. 79; K i = 0.16 nM) by microfluidic radiochemistry. [18F]FEMPT was obtained in ≈7% isolated radiochemical yield and in >98% radiochemical and chemical purity. The molar activity of the final product was determined to be >148 GBq/µmol (>4 Ci/µmol).

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Microfluidic Radiosynthesis of the Muscarinic M2 Imaging Agent [18F]FP-TZTP

Australian Journal of Chemistry ◽

10.1071/ch18266 ◽

2018 ◽

Vol 71 (10) ◽

pp. 811 ◽

Cited By ~ 2

Author(s):

Lidia Matesic ◽

Ivan Greguric ◽

Giancarlo Pascali

Keyword(s):

Radiochemical Purity ◽

Muscarinic Acetylcholine Receptor ◽

Reaction Times ◽

Radiochemical Yield ◽

Receptor Subtype ◽

Chemical Reagents ◽

Molar Activity ◽

Positron Emission ◽

Radiochemical Yields ◽

Pet Scans

3-(4-(3-[18F]Fluoropropylthio)-1,2,5-thiadiazol-3-yl)-1-methyl-1,2,5,6-tetrahydropyridine ([18F]FP-TZTP) is a selective 18F-radiotracer for the muscarinic acetylcholine receptor subtype M2, which can be used to perform positron emission tomography (PET) scans on patients with neurological disorders such as Alzheimer’s disease. [18F]FP-TZTP was produced using continuous-flow microfluidics, a technique that uses reduced amounts of chemical reagents, shorter reaction times and in general, results in higher radiochemical yields compared to currently used techniques. The optimal 18F-radiolabelling conditions consisted of a total flow rate of 40 µL min−1 and 190°C, which produced [18F]FP-TZTP in 26 ± 10 % radiochemical yield with a molar activity of 182 ± 65 GBq µmol−1 and >99 % radiochemical purity.

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GMP production of 6-[18F]Fluoro-l-DOPA for PET/CT imaging by different synthetic routes: a three center experience

EJNMMI Radiopharmacy and Chemistry ◽

10.1186/s41181-021-00135-y ◽

2021 ◽

Vol 6 (1) ◽

Author(s):

Valdemar L. Andersen ◽

Mikkel A. Soerensen ◽

Johan Hygum Dam ◽

Niels Langkjaer ◽

Henrik Petersen ◽

...

Keyword(s):

Radiochemical Yield ◽

Ct Imaging ◽

University Hospital ◽

Dopamine Synthesis ◽

Congenital Hyperinsulinism ◽

Molar Activity ◽

Time Period ◽

Pet Ct ◽

Synthetic Routes ◽

Radiochemical Yields

Abstract Background The radiofluorinated levodopa analogue 6-[18F]F-l-DOPA (3,4-dihydroxy-6-18F-l-phenylalanine) is a commonly employed radiotracer for PET/CT imaging of multiple oncological and neurological indications. An unusually large number of different radiosyntheses have been published to the point where two different Ph. Eur. monographs exist depending on whether the chemistry relies on electrophilic or nucleophilic radiosubstitution of appropriate chemical precursors. For new PET imaging sites wishing to adopt [18F]FDOPA into clinical practice, selecting the appropriate production process may be difficult and dependent on the clinical needs of the site. Methods Data from four years of [18F]FDOPA production at three different clinical sites are collected and compared. These three sites, Aarhus University Hospital (AUH), Odense University Hospital (OUH), and Herlev University Hospital (HUH), produce the radiotracer by different radiosynthetic routes with AUH adopting an electrophilic strategy, while OUH and HUH employ two different nucleophilic approaches. Production failure rates, radiochemical yields, and molar activities are compared across sites and time. Additionally, the clinical use of the radiotracer over the time period considered at the different sites are presented and discussed. Results The electrophilic substitution route suffers from being demanding in terms of cyclotron operation and maintenance. This challenge, however, was found to be compensated by a production failure rate significantly below that of both nucleophilic approaches; a result of simpler chemistry. The five-step nucleophilic approach employed at HUH produces superior radiochemical yields compared to the three-step approach adopted at OUH but suffers from the need for more comprehensive synthesis equipment given the multi-step nature of the procedure, including HPLC purification. While the procedure at OUH furnishes the lowest radiochemical yield of the synthetic routes considered, it produces the highest molar activity. This is of importance across the clinical applications of the tracer discussed here, including dopamine synthesis in striatum of subjects with schizophrenia and congenital hyperinsulinism in infants. Conclusion For most sites either of the two nucleophilic substitution strategies should be favored. However, which of the two will depend on whether a given site wishes to optimize the radiochemical yield or the ease of the use.

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GMP Production of 6- [18F] Fluoro-L-DOPA for PET/CT Imaging by Different Synthetic Routes: A Three Center Experience

10.21203/rs.3.rs-357595/v1 ◽

2021 ◽

Author(s):

Valdemar Lykke Andersen ◽

Mikkel Agerbaek Soerensen ◽

Johan Hygum Dam ◽

Niels Langkjaer ◽

Henrik Petersen ◽

...

Keyword(s):

Radiochemical Yield ◽

Ct Imaging ◽

Dopamine Synthesis ◽

Congenital Hyperinsulinism ◽

University Hospitals ◽

Molar Activity ◽

Time Period ◽

Pet Ct ◽

Synthetic Routes ◽

Radiochemical Yields

Abstract Background: The radiofluorinated levodopa analogue 6-[18F]F-l-DOPA (3,4-dihydroxy-6-18F-l-phenylalanine) is a commonly employed radiotracer for PET/CT imaging of multiple oncological and neurological indications. An unusually large number of different radiosyntheses have been published to the point where two different Ph. Eur. monographs exist depending on whether the chemistry relies on electrophilic or nucleophilic radiosubstitution of appropriate chemical precursors. For new PET imaging sites wishing to adopt [18F]FDOPA into clinical practice, selecting the appropriate production process may be difficult and dependent on the clinical needs of the site. Methods: Data from four years of [18F]FDOPA production at three different clinical sites in Denmark are collected and compared. These three sites, Aarhus (AUH), Odense (OUH), and Herlev University Hospitals (HUH), produce the radiotracer by different radiosynthetic routes with AUH adopting an electrophilic strategy, while OUH and HUH employ two different nucleophilic approaches. Production failure rates, radiochemical yields, and molar activities are compared across sites and time. Additionally, the clinical use of the radiotracer over the time period considered at the different sites are presented and discussed.Results: The electrophilic substitution route suffers from being demanding in terms of cyclotron operation and maintenance. This challenge, however, was found to be compensated by a production failure rate significantly below that of both nucleophilic approaches; a result of simpler chemistry. The five-step nucleophilic approach employed at HUH produces superior radiochemical yields compared to the three-step approach adopted at OUH but suffers from the need for more comprehensive synthesis equipment given the multi-step nature of the procedure, including HPLC purification. While the procedure at OUH furnishes the lowest radiochemical yield of the synthetic routes considered, it produces the highest molar activity. This is of importance across the clinical applications of the tracer discussed here, including dopamine synthesis in striatum of subjects with schizophrenia and congenital hyperinsulinism in infants.Conclusion: For most sites either of the two nucleophilic substitution strategies should be favored. However, which of the two will depend on whether a given site wishes to optimize the radiochemical yield or the ease of the use.

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Click Chemistry Expedited Radiosynthesis: Sulfur [18F]fluoride Exchange of Aryl Fluorosulfates

10.26434/chemrxiv.10314647.v1 ◽

2019 ◽

Cited By ~ 1

Author(s):

Qinheng Zheng ◽

Hongtao Xu ◽

Hua Wang ◽

Wen-Ge Han Du ◽

Nan Wang ◽

...

Keyword(s):

Click Chemistry ◽

High Performance ◽

Isotopic Exchange ◽

Tumor Imaging ◽

Radiochemical Yield ◽

Exchange Method ◽

Molar Activity ◽

Positron Emission ◽

Sulfur Fluoride

The lack of simple, efficient [18F]fluorination processes and new target-specific organofluorine probes remains the major challenge of fluorine-18-based positron emission tomography (PET). We report here a fast isotopic exchange method for the radiosynthesis of aryl [18F]fluorosulfate based PET agents enabled by the emerging sulfur fluoride exchange (SuFEx) click chemistry. The method has been applied to the fully-automated 18F-radiolabeling of twenty-five structurally diverse aryl fluorosulfates with excellent radiochemical yield (83–100%) and high molar activity (up to 281 GBq µmol–1) at room temperature in 30 seconds. The purification of radiotracers requires no time-consuming high-performance liquid chromatography (HPLC), but rather a simple cartridge filtration. The utility of aryl [18F]fluorosulfate is demonstrated by the in vivo tumor imaging by targeting poly(ADP-ribose) polymerase 1 (PARP1).

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Novel late-stage radiosynthesis of 5-[18F]-trifluoromethyl-1,2,4-oxadiazole (TFMO) containing molecules for PET imaging

Scientific Reports ◽

10.1038/s41598-021-90069-x ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Nashaat Turkman ◽

Daxing Liu ◽

Isabella Pirola

Keyword(s):

Late Stage ◽

Histone Deacetylases ◽

Radiochemical Purity ◽

Radiochemical Yield ◽

Single Step ◽

The Novel ◽

Molar Activity ◽

The Central Nervous System ◽

Class Iia Hdacs ◽

18F Fluoride

AbstractSmall molecules that contain the (TFMO) moiety were reported to specifically inhibit the class-IIa histone deacetylases (HDACs), an important target in cancer and the disorders of the central nervous system (CNS). However, radiolabeling methods to incorporate the [18F]fluoride into the TFMO moiety are lacking. Herein, we report a novel late-stage incorporation of [18F]fluoride into the TFMO moiety in a single radiochemical step. In this approach the bromodifluoromethyl-1,2,4-oxadiazole was converted into [18F]TFMO via no-carrier-added bromine-[18F]fluoride exchange in a single step, thus producing the PET tracers with acceptable radiochemical yield (3–5%), high radiochemical purity (> 98%) and moderate molar activity of 0.33–0.49 GBq/umol (8.9–13.4 mCi/umol). We validated the utility of the novel radiochemical design by the radiosynthesis of [18F]TMP195, which is a known TFMO containing potent inhibitor of class-IIa HDACs.

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Achieving selectivity in porphyrin bromination through a DoE-driven optimization under continuous flow conditions

Journal of Flow Chemistry ◽

10.1007/s41981-020-00131-4 ◽

2020 ◽

Author(s):

Paolo Zardi ◽

Michele Maggini ◽

Tommaso Carofiglio

Keyword(s):

Reaction Time ◽

Design Of Experiment ◽

Continuous Flow ◽

Optimization Process ◽

Porphyrin Ring ◽

Flow Conditions ◽

Reaction Parameters ◽

Synthetic Procedure ◽

Relevant Factors ◽

Post Functionalization

AbstractThe post-functionalization of porphyrins through the bromination in β position of the pyrrolic rings is a relevant transformation because the resulting bromoderivatives are useful synthons to covalently link a variety of chemical architectures to a porphyrin ring. However, single bromination of porphyrins is a challenging reaction for the abundancy of reactive β-pyrrolic positions in the aromatic macrocycle. We herein report a synthetic procedure for the efficient preparation of 2-bromo-5,10,15,20-tetraphenylporphyrin (1) under continuous flow conditions. The use of flow technology allows to reach an accurate control over critical reaction parameters such as temperature and reaction time. Furthermore, by performing the optimization process through a statistical DoE (Design of Experiment) approach, these parameters could be properly adjusted with a limited number of experiments. This process led us to a better understanding of the relevant factors that govern porphyrins monobromination and to obtain compound 1 with an unprecedent 80% yield.

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Clinically Applicable Cyclotron-Produced Gallium-68 Gives High-Yield Radiolabeling of DOTA-Based Tracers

Biomolecules ◽

10.3390/biom11081118 ◽

2021 ◽

Vol 11 (8) ◽

pp. 1118

Author(s):

Emma Jussing ◽

Stefan Milton ◽

Erik Samén ◽

Mohammad Mahdi Moein ◽

Lovisa Bylund ◽

...

Keyword(s):

Metal Ion ◽

Metal Content ◽

Gamma Spectroscopy ◽

Radiochemical Yield ◽

High Yield ◽

Automated Synthesis ◽

Molar Activity ◽

Icp Ms ◽

Gallium 68 ◽

Fe Impurities

By using solid targets in medical cyclotrons, it is possible to produce large amounts of 68GaCl3. Purification of Ga3+ from metal ion impurities is a critical step, as these metals compete with Ga3+ in the complexation with different chelators, which negatively affects the radiolabeling yields. In this work, we significantly lowered the level of iron (Fe) impurities by adding ascorbate in the purification, and the resulting 68GaCl3could be utilized for high-yield radiolabeling of clinically relevant DOTA-based tracers. 68GaCl3 was cyclotron-produced and purified with ascorbate added in the wash solutions through the UTEVA resins. The 68Ga eluate was analyzed for radionuclidic purity (RNP) by gamma spectroscopy, metal content by ICP-MS, and by titrations with the chelators DOTA, NOTA, and HBED. The 68GaCl3eluate was utilized for GMP-radiolabeling of the DOTA-based tracers DOTATOC and FAPI-46 using an automated synthesis module. DOTA chelator titrations gave an apparent molar activity (AMA) of 491 ± 204 GBq/µmol. GMP-compliant syntheses yielded up to 7 GBq/batch [68Ga]Ga-DOTATOC and [68Ga]Ga-FAPI-46 (radiochemical yield, RCY ~ 60%, corresponding to ten times higher compared to generator-based productions). Full quality control (QC) of 68Ga-labelled tracers showed radiochemically pure and stable products at least four hours from end-of-synthesis.

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Simplified 89Zr-Labeling Protocol of Oxine (8-Hydroxyquinoline) Enabling Prolonged Tracking of Liposome-Based Nanomedicines and Cells

Pharmaceutics ◽

10.3390/pharmaceutics13071097 ◽

2021 ◽

Vol 13 (7) ◽

pp. 1097

Author(s):

Andras Polyak ◽

Jens P. Bankstahl ◽

Karen F. W. Besecke ◽

Constantin Hozsa ◽

Wiebke Triebert ◽

...

Keyword(s):

Reaction Times ◽

Extraction Methods ◽

Cell Labeling ◽

Size Exclusion ◽

Cell Therapies ◽

Biodistribution Studies ◽

Positron Emission ◽

Human Ipscs ◽

Radiochemical Yields

In this work, a method for the preparation of the highly lipophilic labeling synthon [89Zr]Zr(oxinate)4 was optimized for the radiolabeling of liposomes and human induced pluripotent stem cells (hiPSCs). The aim was to establish a robust and reliable labeling protocol for enabling up to one week positron emission tomography (PET) tracing of lipid-based nanomedicines and transplanted or injected cells, respectively. [89Zr]Zr(oxinate)4 was prepared from oxine (8-hydroxyquinoline) and [89Zr]Zr(OH)2(C2O4). Earlier introduced liquid–liquid extraction methods were simplified by the optimization of buffering, pH, temperature and reaction times. For quality control, thin-layer chromatography (TLC), size-exclusion chromatography (SEC) and centrifugation were employed. Subsequently, the 89Zr-complex was incorporated into liposome formulations. PET/CT imaging of 89Zr-labeled liposomes was performed in healthy mice. Cell labeling was accomplished in PBS using suspensions of 3 × 106 hiPSCs, each. [89Zr]Zr(oxinate)4 was synthesized in very high radiochemical yields of 98.7% (96.8% ± 2.8%). Similarly, high internalization rates (≥90%) of [89Zr]Zr(oxinate)4 into liposomes were obtained over an 18 h incubation period. MicroPET and biodistribution studies confirmed the labeled nanocarriers’ in vivo stability. Human iPSCs incorporated the labeling agent within 30 min with ~50% efficiency. Prolonged PET imaging is an ideal tool in the development of lipid-based nanocarriers for drug delivery and cell therapies. To this end, a reliable and reproducible 89Zr radiolabeling method was developed and tested successfully in a model liposome system and in hiPSCs alike.

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Continuous Flow Photochemical and Thermal Multi-Step Synthesis of Bioactive 3-Arylmethylene-2,3-Dihydro-1H-Isoindolin-1-Ones

Molecules ◽

10.3390/molecules24244527 ◽

2019 ◽

Vol 24 (24) ◽

pp. 4527 ◽

Cited By ~ 3

Author(s):

Saira Mumtaz ◽

Mark J. Robertson ◽

Michael Oelgemöller

Keyword(s):

Local Anesthetic ◽

Continuous Flow ◽

Reaction Times ◽

Batch Processes ◽

Thermal Flow

An effective multi-step continuous flow approach towards N-diaminoalkylated 3-arylmethylene-2,3-dihydro-1H-isoindolin-1-ones, including the local anesthetic compound AL-12, has been realized. Compared to the traditional decoupled batch processes, the combined photochemical–thermal–thermal flow setup rapidly provides the desired target compounds in superior yields and significantly shorter reaction times.

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