{"title":"Simplified and highly-reliable automated production of [18F]FSPG for clinical studies","authors":"Mai Lin, Robert T. Ta, H. Charles Manning","doi":"10.1186/s41181-023-00200-8","DOIUrl":null,"url":null,"abstract":"<div><h3>Background</h3><p>(S)-4-(3-<sup>18</sup>F-Fluoropropyl)-L-Glutamic Acid ([<sup>18</sup>F]FSPG) is a positron emission tomography (PET) tracer that specifically targets the cystine/glutamate antiporter (xc<sup>−</sup>), which is frequently overexpressed in cancer and several neurological disorders. Pilot studies examining the dosimetry and biodistribution of [<sup>18</sup>F]FSPG in healthy volunteers and tumor detection in patients with non-small cell lung cancer, hepatocellular carcinoma, and brain tumors showed promising results. In particular, low background uptake in the brain, lung, liver, and bowel was observed that further leads to excellent imaging contrasts of [<sup>18</sup>F]FSPG PET. However, reliable production-scale cGMP-compliant automated procedures for [<sup>18</sup>F]FSPG production are still lacking to further increase the utility and clinical adoption of this radiotracer. Herein, we report the optimized automated approaches to produce [<sup>18</sup>F]FSPG through two commercially available radiosynthesizers capable of supporting centralized and large-scale production for clinical use.</p><h3>Results</h3><p>Starting with activity levels of 60–85 GBq, the fully-automated process to produce [<sup>18</sup>F]FSPG took less than 45 min with average radiochemical yields of 22.56 ± 0.97% and 30.82 ± 1.60% (non-decay corrected) using TRACERlab™ FXFN and FASTlab™, respectively. The radiochemical purities were > 95% and the formulated [<sup>18</sup>F]FSPG solution was determined to be sterile and colorless with the pH of 6.5–7.5. No radiolysis of the product was observed up to 8 h after final batch formulation.</p><h3>Conclusions</h3><p>In summary, cGMP-compliant radiosyntheses and quality control of [<sup>18</sup>F]FSPG have been established on two commercially available synthesizers leveraging high activity concentration and radiochemical purity. While the clinical trials using [<sup>18</sup>F]FSPG PET are currently underway, the automated approaches reported herein will accelerate the clinical adoption of this radiotracer and warrant centralized and large-scale production of [<sup>18</sup>F]FSPG.</p></div>","PeriodicalId":534,"journal":{"name":"EJNMMI Radiopharmacy and Chemistry","volume":"8 1","pages":""},"PeriodicalIF":4.4000,"publicationDate":"2023-07-24","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10366059/pdf/","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"EJNMMI Radiopharmacy and Chemistry","FirstCategoryId":"1085","ListUrlMain":"https://link.springer.com/article/10.1186/s41181-023-00200-8","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q1","JCRName":"CHEMISTRY, INORGANIC & NUCLEAR","Score":null,"Total":0}
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Abstract
Background
(S)-4-(3-18F-Fluoropropyl)-L-Glutamic Acid ([18F]FSPG) is a positron emission tomography (PET) tracer that specifically targets the cystine/glutamate antiporter (xc−), which is frequently overexpressed in cancer and several neurological disorders. Pilot studies examining the dosimetry and biodistribution of [18F]FSPG in healthy volunteers and tumor detection in patients with non-small cell lung cancer, hepatocellular carcinoma, and brain tumors showed promising results. In particular, low background uptake in the brain, lung, liver, and bowel was observed that further leads to excellent imaging contrasts of [18F]FSPG PET. However, reliable production-scale cGMP-compliant automated procedures for [18F]FSPG production are still lacking to further increase the utility and clinical adoption of this radiotracer. Herein, we report the optimized automated approaches to produce [18F]FSPG through two commercially available radiosynthesizers capable of supporting centralized and large-scale production for clinical use.
Results
Starting with activity levels of 60–85 GBq, the fully-automated process to produce [18F]FSPG took less than 45 min with average radiochemical yields of 22.56 ± 0.97% and 30.82 ± 1.60% (non-decay corrected) using TRACERlab™ FXFN and FASTlab™, respectively. The radiochemical purities were > 95% and the formulated [18F]FSPG solution was determined to be sterile and colorless with the pH of 6.5–7.5. No radiolysis of the product was observed up to 8 h after final batch formulation.
Conclusions
In summary, cGMP-compliant radiosyntheses and quality control of [18F]FSPG have been established on two commercially available synthesizers leveraging high activity concentration and radiochemical purity. While the clinical trials using [18F]FSPG PET are currently underway, the automated approaches reported herein will accelerate the clinical adoption of this radiotracer and warrant centralized and large-scale production of [18F]FSPG.
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