Fine‐tuning of the automated [18F]PSMA‐1007 radiosynthesis

Radiolabeled prostate‐specific membrane antigen (PSMA) targeting PET‐tracers have become desirable radiopharmaceuticals for the imaging of prostate cancer (PC). Recently, the PET radiotracer [¹⁸F]PSMA‐1007 was introduced as an alternative to [⁶⁸Ga]Ga‐PSMA‐11, for staging and diagnosing biochemically recurrent PC. We incorporated a one‐step procedure for [¹⁸F]PSMA‐1007 radiosynthesis, using both Synthra RNplus and GE TRACERlab FxFN automated modules, in accordance with the recently described radiolabeling procedure. Although the adapted [¹⁸F]PSMA‐1007 synthesis resulted in repeatable radiochemical yields (55 ± 5%, NDC), suboptimal radiochemical purities of 87 ± 8% were obtained using both modules. As described here, modifications made to the radiolabeling and the solid‐phase extraction purification steps reduced synthesis time to 32 minutes and improved radiochemical purity to 96.10%, using both modules, without shearing the radiochemical yield.     

Synthesis and bioevaluation of 4‐chloro‐2‐tert‐butyl‐5‐[2‐[[1‐[2‐[18F]fluroethyl]‐1H‐1,2,3‐triazol‐4‐yl]methyl]phenylmethoxy]‐3(2H)‐pyridazinone as potential myocardial perfusion imaging agent with PET

This study reports the synthesis and characterization of 4‐chloro‐2‐tert‐butyl‐5‐[2‐[[1‐[2‐[¹⁸F]fluroethyl]‐1H‐1,2,3‐triazol‐4‐yl]methyl]phenylmethoxy]‐3(2H)‐pyridazinone ([¹⁸F]Fmp2) for myocardial perfusion imaging (MPI). The tosylate precursor and non‐radioactive compound [¹⁹F]Fmp2 were synthesized and characterized by infrared, ¹H‐NMR, ¹³C‐NMR, and mass spectra (MS). The radiotracer [¹⁸F]Fmp2 was obtained by one‐step nucleophilic substitution of tosyl with ¹⁸F, and evaluated as an MPI agent in vitro and in vivo. Starting from [¹⁸F]KF/K₂₂₂ solution, the typical decay‐corrected radiochemical yield (RCY) was 38 ± 8.8% with high radiochemical purity (>98%). The specific activity was calculated as 10 GBq/µmol at the end of synthesis determined by HPLC analysis. In the mice biodistribution, [¹⁸F]Fmp2 showed very high initial heart uptake (53.35 ± 5.47 %ID/g at 2 min after injection) and remarkable retention. The heart/liver, heart/lung, and heart/blood ratios were 7.98, 8.20, and 53.13, respectively at 2 min post‐injection. In the Positron Emission Tomography (PET) imaging study of Chinese mini‐swine, the standardized uptake value of the liver decreased modestly during the 2 h post‐injection, while the heart uptake and heart/liver ratios continued to increase with time. [¹⁸F]Fmp2 exhibited good stability, high heart uptake and low lung uptake in mice and Chinese mini‐swine. It may be worthy of further modification to improve liver clearance for MPI in the future.     

18F‐labelling of a potent nonpeptide CCR1 antagonist: synthesis of 1‐(5‐chloro‐2‐{2‐[(2R)‐4‐(4‐[18F]fluorobenzyl)‐2‐methylpiperazin‐1‐yl]‐2‐oxoethoxy}phenyl)urea in an automated module

The synthesis of 1‐(5‐chloro‐2‐{2‐[(2R)‐4‐(4‐[¹⁸F]fluorobenzyl)‐2‐methylpiperazin‐1‐yl]‐2‐oxoethoxy}phenyl)urea ( [¹⁸F]4 ), a potent nonpeptide CCR1 antagonist, is described as a module‐assisted two‐step one‐pot procedure. The final product was obtained utilizing the reductive amination of the formed 4‐[¹⁸F]fluorobenzaldehyde ( 2 ) with a piperazine derivative 3 and sodium cyanoborohydride. After HPLC purification of the final product [¹⁸F]4 , its solid phase extraction, formulation and sterile filtration, the isolated (not decay‐corrected) radiochemical yields of [¹⁸F]4 were between 7 and 13% (n=28). The time of the entire manufacturing process did not exceed 95 min. The radiochemical purity of [¹⁸F]4 was higher than 95%, the chemical purity ?60% and the enantiomeric purity >99.5%. The specific radioactivity was in the range of 59–226 GBq/µmol at starting radioactivities of 23.6–65.0 GBq [¹⁸F]fluoride. Copyright © 2006 John Wiley & Sons, Ltd.     

N3‐Substituted thymidine analogues III: radiosynthesis of N3‐[(4‐[18F]fluoromethyl‐phenyl)butyl]thymidine ([18F]‐FMPBT) and N3‐[(4‐[18F]fluoromethyl‐phenyl)pentyl] thymidine ([18F]‐FMPPT) for PET

Radiosyntheses of two N³‐substituted thymidine analogues, N³‐[(4[¹⁸F]fluoromethyl‐phenyl)butyl]thymidine ([¹⁸F]‐FMPBT) and N³‐[(4[¹⁸F]fluoromethyl‐phenyl)pentyl]thymidine ([¹⁸F]‐FMPPT), are reported. The precursor compounds 9 and 10 were synthesized in six steps and the standard compounds 13 and 14 were synthesized from these precursors. For radiosynthesis, compounds 9 and 10 were fluorinated with n‐Bu₄N[¹⁸F] to produce [¹⁸F]‐ 11 and [¹⁸F]‐ 12 , which by acid hydrolysis yielded [¹⁸F]‐ 13 and [¹⁸F]‐ 14 , respectively. The crude products were purified by high‐performance liquid chromatography to obtain [¹⁸F]‐FMPBT and [¹⁸F]‐FMPPT. The average decay‐corrected radiochemical yield for [¹⁸F]‐ 13 was 15% in five runs, and that for [¹⁸F]‐ 14 was 10% in four runs. The radiochemical purity was >99% and the specific activity was >74 GBq/µmol at the end of synthesis. The synthesis time was 80–90 min from the end of bombardment. Copyright © 2007 John Wiley & Sons, Ltd.     

Comparison of the Cardiac MicroPET Images Obtained Using [18F]FPTP and [13N]NH3 in Rat Myocardial Infarction Models

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Automated synthesis of 18F‐labelled analogs of metomidate,vorozole and harmine using commercial platform

Three ¹⁸F‐labelled PET tracers, 2‐[¹⁸F]fluoroethyl 1‐[(1R)‐1‐phenylethyl]‐1H‐imidazole‐5‐carboxylate ([¹⁸F]FETO), 6‐[(S)‐(4‐chlorophenyl)‐(1H)‐1,2,4‐triazol‐1‐yl)methyl]‐1‐(2‐[¹⁸F]fluoroethyl)‐1H‐benzotriazole ([¹⁸F]FVOZ) and 7‐[2‐(2‐[¹⁸F]fluoroethoxy)ethoxy]‐1‐9H‐ β ‐carboline ([¹⁸F]FHAR) were synthesized by a one‐step nucleophilic fluorination using the automated commercial platform TRACERLab FX_FN. The labelled products were obtained with 16–20% isolated decay corrected radiochemical yields after 70–75 min synthesis time. The radiochemical and chemical purities were more than 98% in all cases. The synthesis using commercial platform may make these tracers more accessible for clinical research. Copyright © 2010 John Wiley & Sons, Ltd.     

One‐step radiosynthesis of 4‐[18F]flouro‐3‐nitro‐N‐2‐propyn‐1‐yl‐benzamide ([18F]FNPB): a new stable aromatic porosthetic group for efficient labeling of peptides with fluorine‐18

4‐[¹⁸F]flouro‐3‐nitro‐N‐2‐propyn‐1‐yl‐benzamide ([¹⁸F]FNPB) was developed as a new stable aromatic prosthetic group for more efficient click labeling of peptides. A new aromatic precursor 3,4‐dinitro‐N‐2‐propyn‐1‐yl‐benzamide was radiofluorinated using [¹⁸F]KF/K2.2.2 followed by HPLC purification to obtain the desired product [¹⁸F]FNPB. [¹⁸F]FNPB was synthesized with a 58% radiochemical yield, a specific activity > 350 GBq/µmol, and radiochemical purity was exceeded 98% in 40 min. The in vitro stability studies showed no detectable radiodefluorination over 2 h in mouse plasma. The click labeling yield of three different peptides with [¹⁸F]FNPB were all above 87%. The in vitro study suggests that [¹⁸F]FNPB may be stable in vivo and could have general application in labeling peptides with high radiochemical yield for positron emission tomography applications. Copyright © 2012 John Wiley & Sons, Ltd.     

Development of a reliable remote‐controlled synthesis of β‐[11C]‐5‐hydroxy‐L‐tryptophan on a Zymark robotic system

Precise staging of neuroendocrine tumors (NET) using positron emission tomography (PET) tracers visualizing their specific metabolic activity is of interest. Besides [¹⁸F]FDOPA, staging NET with carbon‐11 labeled 5‐hydroxytryptophan (5‐HTP) is reported in recent literature. We implemented the multi‐enzymatic synthesis of enantiomerically pure [¹¹C]‐L‐5‐HTP on a Zymark robotic system to compare both tracers in patient studies. [¹¹C]‐5‐HTP can be synthesized in up to 24% radiochemical yields (EOB). Average specific activity is 44 000 GBq/mmol in ca. 50 min from [¹¹C]methyl iodide in radiochemical purities >99 %. The synthesis of 5‐HTP is difficult due to its multi‐enzymatic reaction steps but typical yields can be achieved of ca. 400 MBq. [¹¹C]‐5‐HTP is now reliably used in ongoing studies for staging NET. Copyright © 2006 John Wiley & Sons, Ltd.     

Radiosynthesis and in vivo study of [18F]1‐(2‐fluoroethyl)‐4‐[(4‐cyanophenoxy)methyl]piperidine: a promising new sigma‐1 receptor ligand

The novel sigma‐1 receptor PET radiotracer [¹⁸F]1‐(2‐fluoroethyl)‐4‐[(4‐cyanophenoxy)methyl]piperidine ([¹⁸F]WLS1.002, [¹⁸F]‐2) was synthesized (n=6) by heating the corresponding N‐ethylmesylate precursor in an anhydrous acetonitrile solution containing [¹⁸F]fluoride, Kryptofix K₂₂₂ and potassium carbonate for 15 min. Purification was accomplished by reverse‐phase HPLC methods, providing [¹⁸F]‐2 in 59±8% radiochemical yield (EOB), with specific activity of 2.89±0.80 Ci/µmol (EOS) and radiochemical purity of 98.3±2.1%. Rat biodistribution studies revealed relatively high uptake in many organs known to contain sigma‐1 receptors, including the lungs, kidney, heart, spleen, and brain. Good clearance from normal tissues was observed over time. Blocking studies (60 min) demonstrated high (>80%) specific binding of [¹⁸F]‐2 in the brain, with reduction also noted in other organs known to express these sites. Copyright © 2005 John Wiley & Sons, Ltd.     

Copper‐mediated reduction of 2‐[18F]fluoroethyl azide to 2‐[18F]fluoroethylamine

¹⁸F‐labelled fluoroalkylamines are attractive reagents for the preparation of positron emission tomography tracers containing amine, amide, and N‐heterocyclic moieties. Herein, we report that 2‐[¹⁸F]fluoroethylamine can be obtained from 2‐[¹⁸F]fluoroethyl azide by reduction with elemental copper under acidic conditions. Azide to amine reduction was achieved in near quantitative analytical yields within 30 min by heating a solution of 2‐[¹⁸F]fluoroethyl azide in the presence of copper wire and aqueous trifluoroacetic acid. Subsequent reaction of 2‐[¹⁸F]fluoroethylamine with benzoyl chloride in the presence of triethylamine provided N‐[¹⁸F]fluoroethyl benzamide in 63% decay‐corrected radiochemical yield from 2‐[¹⁸F]fluoroethyl azide. The utility of the Cu(0)/H⁺ azide reduction method was further exemplified by preparation of the potential GABA_A tracer 9H‐β‐carboline N‐2‐[¹⁸F]fluoroethylamide, which was obtained in 46% decay‐corrected radiochemical yield by reaction of 2‐[¹⁸F]fluoroethylamine with the corresponding 9H‐β‐carboline pentafluorophenyl ester. Copyright © 2012 John Wiley & Sons, Ltd.     

Synthesis of 6‐acrylamido‐4‐(2‐[18F]fluoroanilino)quinazoline: a prospective irreversible EGFR binding probe

Acrylamido‐quinazolines substituted at the 6‐position bind irreversibly to the intracellular ATP binding domain of the epidermal growth factor receptor (EGFR). A general route was developed for preparing 6‐substituted‐4‐anilinoquinazolines from [¹⁸F]fluoroanilines for evaluation as EGFR targeting agents with PET. By a cyclization reaction, 2‐[¹⁸F]fluoroaniline was reacted with N′‐(2‐cyano‐4‐nitrophenyl)‐N,N‐dimethylimidoformamide to produce 6‐nitro‐4‐(2‐[¹⁸F]fluoroanilino)quinazoline in 27.5% decay‐corrected radiochemical yield. Acid mediated tin chloride reduction of the nitro group was achieved in 5 min (80% conversion) and subsequent acylation with acrylic acid gave 6‐acrylamido‐4‐(2‐[¹⁸F]fluoroanilino)quinazoline in 8.5% decay‐corrected radiochemical yield, from starting fluoride, in less than 2 h. Copyright © 2005 John Wiley & Sons, Ltd.     

Fast indirect fluorine‐18 labeling of protein/peptide using the useful 6‐fluoronicotinic acid‐2,3,5,6‐tetrafluorophenyl prosthetic group: A method comparable to direct fluorination

Fluorine‐18 labeling of biomolecules is mostly performed by an indirect labeling method using a prosthetic group. Fluorine‐18 labeled 6‐fluoronicotinic acid‐2,3,5,6‐tetrafluorophenyl ester is a useful prosthetic group to radiolabel a protein. Recently, we reported an improved preparation of this prosthetic group. To test the conjugation efficiency of the labeled ester prepared by this method, we have performed conjugation reactions with a peptide, a protein, and a small molecule. Prostate‐specific membrane antigen targeting small molecule [¹⁸F]DCFPyL, αvβ3 integrin receptors targeting peptide [¹⁸F]c(RGDfK) and [¹⁸F]albumin were prepared in good radiochemical yields. The conjugation reactions were completed at 40°C to 50°C in 10 minutes. The overall radiochemical yield was 25% to 43% in 30 to 45 minutes.     

Automated synthesis of N‐(2‐[18F]Fluoropropionyl)‐l‐glutamic acid as an amino acid tracer for tumor imaging on a modified [18F]FDG synthesis module

N‐(2‐[¹⁸F]Fluoropropionyl)‐l ‐glutamic acid ([¹⁸F]FPGLU) is a potential amino acid tracer for tumor imaging with positron emission tomography. However, due to the complicated multistep synthesis, the routine production of [¹⁸F]FPGLU presents many challenging laboratory requirements. To simplify the synthesis process of this interesting radiopharmaceutical, an efficient automated synthesis of [¹⁸F]FPGLU was performed on a modified commercial fluorodeoxyglucose synthesizer via a 2‐step on‐column hydrolysis procedure, including ¹⁸F‐fluorination and on‐column hydrolysis reaction. [¹⁸F]FPGLU was synthesized in 12 ± 2% (n = 10, uncorrected) radiochemical yield based on [¹⁸F]fluoride using the tosylated precursor 2 . The radiochemical purity was ≥98%, and the overall synthesis time was 35 minutes. To further optimize the radiosynthesis conditions of [¹⁸F]FPGLU, a brominated precursor 3 was also used for the preparation of [¹⁸F]FPGLU, and the improved radiochemical yield was up to 20 ± 3% (n  = 10, uncorrected) in 35 minutes. Moreover, all these results were achieved using the similar on‐column hydrolysis procedure on the modified fluorodeoxyglucose synthesis module.     

A novel method for stereospecific fluorination at the 2′‐arabino‐position of pyrimidine nucleoside: synthesis of [18F]‐FMAU

Direct fluorination of a pyrimidine nucleoside at the 2′‐arabino‐position has been deemed to be extremely difficult, if not impossible. The conventional synthesis of 2′‐deoxy‐2′‐fluoro‐5‐methy‐1‐β‐D ‐arabinofuranosyluracil (FMAU) and its 5‐substituted analogs involves stereospecific fluorination of the 1,3,5‐tri‐O‐benzoyl‐α‐D ‐ribofuranose‐2‐sulfonate ester followed by bromination at the C₁‐postion, and then coupling with pyrimidine‐bis‐trimethylsilyl ether. Several radiolabeled nucleoside analogs, including [¹⁸F]FMAU, and other 5‐substituted analogs, were developed according to this methodology. However, routine production of these compounds using this multi‐step process is inconvenient and limits their clinical application. We developed a novel precursor and method for direct fluorination of preformed nucleoside analogs at the 2′‐arabino position, exemplified via radiosynthesis of [¹⁸F]FMAU. The 2′‐methylsulfonyl‐3′,5′‐O‐tetrahydropyranyl‐N³‐Boc‐5‐methyl‐1‐β‐D ‐ribofuranosiluracil was synthesized in multiple steps. Radiofluorination of this precursor with K¹⁸F/kryptofix produced 2′‐deoxy‐2′‐[¹⁸F]fluoro‐3′,5′‐O‐tetrahydropyranyl‐N³‐Boc‐5‐methyl‐1‐β‐D ‐arabinofuranosiluracil. Acid hydrolysis followed by high‐performance liquid chromatography purification produced the desired [¹⁸F]FMAU. The average radiochemical yield was 2.0% (decay corrected, n=6), from the end of bombardment. Radiochemical purity was >99%, and specific activity was >1800 mCi/µmol. Synthesis time was 95–100 min from the end of bombardment. This direct fluorination is a novel method for synthesis of [¹⁸F]FMAU, and the method should be suitable for production of other 5‐substituted pyrimidine analogs, including [¹⁸F]FEAU, [¹⁸F]FIAU, [¹⁸F]FFAU, [¹⁸F]FCAU, and [¹⁸F]FBAU. Copyright © 2010 John Wiley & Sons, Ltd.     

Rapid synthesis of maleimide functionalized fluorine‐18 labeled prosthetic group using “radio‐fluorination on the Sep‐Pak” method

Following our recently published fluorine‐18 labeling method, “Radio‐fluorination on the Sep‐Pak”, we have successfully synthesized 6‐[¹⁸F]fluoronicotinaldehyde by passing a solution (1:4 acetonitrile: t‐butanol) of its quaternary ammonium salt precursor, 6‐(N,N,N‐trimethylamino)nicotinaldehyde trifluoromethanesulfonate ( 2 ), through a fluorine‐18 containing anion exchange cartridge (PS‐HCO₃). Over 80% radiochemical conversion was observed using 10 mg of precursor within 1 minute. The [¹⁸F]fluoronicotinaldehyde ([¹⁸F] 5 ) was then conjugated with 1‐(6‐(aminooxy)hexyl)‐1H‐pyrrole‐2,5‐dione to prepare the fluorine‐18 labeled maleimide functionalized prosthetic group, 6‐[¹⁸F]fluoronicotinaldehyde O‐(6‐(2,5‐dioxo‐2,5‐dihydro‐1H‐pyrrol‐1‐yl)hexyl) oxime, 6‐[¹⁸F]FPyMHO ([¹⁸F] 6 ). The current Sep‐Pak method not only improves the overall radiochemical yield (50 ± 9%, decay‐corrected, n = 9) but also significantly reduces the synthesis time (from 60‐90 minutes to 30 minutes) when compared with literature methods for the synthesis of similar prosthetic groups.     

Simple and high radiochemical yield synthesis of 2′‐Deoxy‐2′‐[18F]fluorouridine via a new nosylate precursor

We synthesized 2'‐deoxy‐2'‐[¹⁸F]fluorouridine ( 7 ) as a radiotracer for positron emission tomography from a new nosylate precursor ( 6 ). This new precursor was synthesized from uridine in four steps. The overall synthetic yield was 9.4% and we have high stability of >98% purity up to 6 months at 4°C. The optimal manual [¹⁸F]fluorination conditions were 30 mg of the precursor 6 in 500 µl of acetonitrile at 145°C for 15 min with 370 MBq of [¹⁸F]fluoride. The [¹⁸F]fluorination yield was 76.5±2.7% (n = 3). After hydrolysis of protecting groups with 1 N HCl and purification by HPLC, the overall radiochemical yield and purity were 26.5±1.4% and 98.2±2.5%, respectively. The preparation time was 70.0±10.5 min (n = 3 for each result). We also developed an automated method with a radiochemical yield and purity of 24.0±2.8 and 98.0±1.5% (n = 10) using a GE TracerLab MX chemistry module. This new nosylate precursor for 2'‐deoxy‐2'‐[¹⁸F]fluorouridine synthesis showed higher radiochemical yields and reproducibility than previous methods. Copyright © 2006 John Wiley & Sons, Ltd.     

An improved radiosynthesis of O‐(2‐[18F]fluoroethyl)‐O‐(p‐nitrophenyl)methylphosphonate: A first‐in‐class cholinesterase PET tracer

O‐(2‐Fluoroethyl)‐O‐(p‐nitrophenyl) methylphosphonate 1 is an organophosphate cholinesterase inhibitor that creates a phosphonyl‐serine covalent adduct at the enzyme active site blocking cholinesterase activity in vivo . The corresponding radiolabeled O‐(2‐[¹⁸F]fluoroethyl)‐O‐(p‐nitrophenyl) methylphosphonate, [ ¹⁸ F]1 , has been previously prepared and found to be an excellent positron emission tomography imaging tracer for assessment of cholinesterases in live brain, peripheral tissues, and blood. However, the previously reported [ ¹⁸ F]1 tracer synthesis was slow even with microwave acceleration, required high‐performance liquid chromatography separation of the tracer from impurities, and gave less optimal radiochemical yields. In this paper, we report a new synthetic approach to circumvent these shortcomings that is reliant on the facile reactivity of bis‐(O,O‐p‐nitrophenyl) methylphosphonate, 2 , with 2‐fluoroethanol in the presence of DBU. The cold synthesis was successfully translated to provide a more robust radiosynthesis. Using this new strategy, the desired tracer, [ ¹⁸ F]1 , was obtained in a non‐decay–corrected radiochemical yield of 8 ± 2% (n = 7) in >99% radiochemical and >95% chemical purity with a specific activity of 3174 ± 345 Ci/mmol (EOS). This new facile radiosynthesis routinely affords highly pure quantities of [ ¹⁸ F]1 , which will further enable tracer development of OP cholinesterase inhibitors and their evaluation in vivo .     

Synthesis of an 18F‐labeled cyclin‐dependent kinase‐2 inhibitor

The radiosynthesis of N‐(5‐(((5‐(tert‐butyl)oxazol‐2‐yl)methyl)thio)thiazol‐2‐yl)‐4‐[¹⁸F]fluoro‐benzamide [¹⁸F]2 as a potential radiotracer for molecular imaging of cyclin‐dependent kinase‐2 (CDK‐2) expression in vivo by positron emission tomography is described. Two different synthesis routes were envisaged. The first approach followed direct radiofluorination of respective nitro‐ and trimethylammonium substituted benzamides as labeling precursors with no‐carrier‐added (n.c.a.) [¹⁸F]fluoride. A second synthesis route was based on the acylation reaction of 2‐aminothiazole derivative with labeling agent [¹⁸F]SFB. Direct radiofluorination afforded ¹⁸ F‐labeled CDK‐2 inhibitor in very low yields of 1%–3%, whereas acylation reaction with [¹⁸F]SFB gave ¹⁸ F‐labeled CDK‐2 inhibitor [¹⁸ F]2 in high yields of up to 85% based upon [¹⁸ F]SFB during the optimization experiments. Large scale preparation afforded radiotracer [¹⁸ F]2 in isolated radiochemical yields of 37%–44% (n = 3, decay‐corrected) after HPLC purification within 75 min based upon [¹⁸ F]SFB. This corresponds to a decay‐corrected radiochemical yield of 13%–16% based upon [¹⁸F]fluoride. The radiochemical purity exceeded 95% and the specific activity was determined to be 20 GBq/µmol. Copyright © 2011 John Wiley & Sons, Ltd.     

Radiosynthesis of 4‐[18F]fluoromethyl‐L‐phenylalanine and [18F]FET via a same strategy and automated synthesis module

Currently there is still a need for more potent amino acid analogues as tumour imaging agents for peripheral tumour imaging with PET as it was recently reported that the success of O‐(2′‐[¹⁸F]fluoroethyl)‐L ‐tyrosine ([¹⁸F]FET) is limited to brain, head and neck tumours. As the earlier described 2‐Amino‐3‐(2‐[¹⁸F]fluoromethyl‐phenyl)‐propionic acid (2‐[¹⁸F]FMP) suffered from intramolecular‐catalysed defluorination, we synthesized 2‐Amino‐3‐(4‐[¹⁸F]fluoromethyl‐phenyl)‐propionic acid (4‐[¹⁸F]FMP) as an alternative for tumour imaging with PET. Radiosynthesis of 4‐[¹⁸F]FMP, based on Br for [¹⁸F] aliphatic nucleophilic exchange, was performed with a customized modular Scintomics automatic synthesis hotbox^three system in a high overall yield of 30% and with a radiochemical purity of \gt 99%. 4‐[¹⁸F]FMP was found to be stable in its radiopharmaceutical formulation, even at high radioactivity concentrations. Additionally, for a comparative study, [¹⁸F]FET was synthesized using the same setup in 40% overall yield, with a radiochemical purity \gt 99%. The described automated radiosynthesis allows the production of two different amino acid analogues with minor alternations to the parameter settings of the automated system, rendering this unit versatile for both research and clinical practice. Copyright © 2009 John Wiley & Sons, Ltd.     

Comparison of pathways to the versatile synthon of no‐carrier‐added 1‐bromo‐4‐[18F]fluorobenzene

The availability of no‐carrier‐added (n.c.a.) 1‐bromo‐4‐[¹⁸F]fluorobenzene with high radiochemical yields is important for ¹⁸F‐arylation reactions using metallo‐organic 4‐[¹⁸F]fluorophenyl compounds (e.g. of lithium or magnesium) or Pd‐catalyzed coupling. In this study, different methods for the preparation of 1‐bromo‐4‐[¹⁸F]fluorobenzene by nucleophilic aromatic substitution reactions using n.c.a. [¹⁸F]fluoride were examined. Of six pathways compared, symmetrical bis‐(4‐bromphenyl)iodonium bromide proved most useful to achieve the title compound in a direct, one‐step nucleophilic substitution with a radiochemical yield (RCY) of 65% within 10 min. Copyright © 2004 John Wiley & Sons, Ltd.