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Objective To investigate the causes of false-positive results in the 68Ga-labeled fibroblast activation protein inhibitor (68Ga-FAPI-04) PET/CT imaging. Methods The imaging data of 547 patients undergoing 68Ga-FAPI-04 PET/CT examination in the Department of Nuclear Medicine of the Affiliated Hospital of Southwest Medical University from September 2020 to May 2021 were retrospectively collected.Two experienced nuclear medicine diagnostic physicians analyzed the clinical data,relevant imaging examinations,laboratory examinations,pathological results and follow-up results of the patients with false-positive results. Results The 68Ga-FAPI-04 PET/CT imaging of 547 patients showed false-positive results in 99 (18.1%) patients,including 56 males and 43 females.The postoperative pathological examination confirmed false-positive results in 13 patients,including 1 patient of thyroiditis,2 patients of pulmonary tuberculosis,1 patient of bone tuberculosis,2 patients of pulmonary inflammatory pseudotumor,1 patient of pulmonary sarcoidosis,1 patient of pulmonary benign fibroma,1 patient of organic pneumonia,2 patients of renal angiomyolipoma,1 patient of mass pancreatitis,and 1 patient of pancreatic mucinous cystadenoma.The medical history,relevant imaging examination,and long-term follow-up confirmed false-positive results in 86 patients.Specifically,the false-positive uptake in the neck,chest,abdomen,bone joint,and skin occurred in 8 (9.3%),13 (15.1%),5 (5.8%),57 (66.3%),and 3 (3.5%) patients,respectively.Inflammation-related uptake appeared in 83 (83.8%) patients with false-positive imaging results,of which arthritis (23 patients) and osteophyte (29 patients) were the most common.Sixteen (16.2%) patients showed the false-positive uptake related to fibroblasts. Conclusion 68Ga-FAPI-04 PET/CT imaging will show non-malignant tumor false-positive results,which are mainly associated with inflammation and fibroblasts.
Subject(s)
Female , Male , Humans , Gallium Radioisotopes , Positron Emission Tomography Computed Tomography , Angiomyolipoma , Retrospective Studies , Kidney Neoplasms , Fibroblasts , Inflammation , Fluorodeoxyglucose F18 , QuinolinesABSTRACT
Objective:To fulfill the automatic radiolabeling of the norepinephrine transporter (NET) trancer 18F-meta-fluorobenzylguanidine (mFBG), and explore the 18F-mFBG PET/CT imaging effect of pheochromocytoma. Methods:On the basis of the chemical structure of mFBG, a spirocyclic iodonium ylide was used as the precursor to undergo a 3-step reaction sequence (radiofluorination, deprotection and neutralization) on AllinOne synthesis module. Purification by high performance liquid chromatography and formulation were conducted to generate 18F-mFBG. The corresponding quality control tests of 18F-mFBG product was performed. Afterwards, a postoperative patient with pheochromocytoma underwent 18F-mFBG PET/CT imaging. Results:The radiosynthesis was accomplished within 70 min, and 18F-mFBG was obtained in (17.8±2.4)% non-decay-corrected radiochemical yield ( n=5), with radiochemical purity >97% and molar activity >59.2 GBq/μmol. Sterility test, bacterial endotoxins test, abnormal toxicity test and the acetonitrile residue all met the requirements of Pharmacopoeia of the People′ s Republic of China (2020 Volume Ⅳ). The 18F-mFBG PET/CT imaging disclosed high uptake in pheochromocytoma and clear localization of lesions. Conclusions:The automatic radiolabeling of the NET targeted tracer 18F-mFBG is successfully realized by commercially available synthesis module, and the production quality meets all requirements for clinical translation. 18F-mFBG has a potential to image neuroendocrine lesions in clinical setting.
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Objective:To produce 68Ga and automatically synthesize 68Ga-labeled drugs based on low-energy medical cyclotron solid target system. Methods:68Zn was electroplated on the surface of the target by electrodeposition. According to the principle of 68Zn(p, n) 68Ga nuclear reaction, 68Zn was irradiated by the 10 MeV medical cyclotron solid target system (30 μA, 30 min) to produce 68Ga, and the activity, nuclear purity, half-life and content of metal impurities of purified product were determined. 68Ga-prostate specific membrane antigen (PSMA)-11 and 68Ga-1, 4, 7, 10-tetraazacyclododecane-1, 4, 7, 10-tetraacetic acid- D-Phe1-Tyr3-Thr8-octreotide (DOTATATE) were synthesized automatically using 68Ga respectively, and the quality control analyses of drug properties, concentration, pH, radiochemical purity, sterility and bacterial endotoxin were carried out. Results:The electroplating mass of 68Zn was (43.71±0.87) mg ( n=35), the yield of 68Ga after irradiation was (10.96±0.67) GBq ( n=35), and the measured half-life was (67.64±0.06) min ( n=7). Only 511 keV energy peak was detected by the gamma spectrometer. After purification, (6.85±0.12) GBq ( n=35) of pure 68Ga was obtained, and the purification efficiency was (62.46±0.96)% (non-attenuated correction, n=35). The metal impurity contents of Zn and Fe were (0.18±0.06) and (1.25±0.43) μg/GBq ( n=5), which met the requirements of European Pharmacopoeia. Three batches of 68Ga-PSMA-11 and 68Ga-DOTATATE were automatically synthesized, with the yield, concentration and radiochemical purity of (3.54±0.14) and (2.74±0.20) GBq, (294.97±11.58) and (228.17±16.32) GBq/L, (99.73±0.11)% and (99.45±0.25)%, respectively. Both sterility and bacterial endotoxin were qualified. Conclusion:High-yield and qualified nuclide 68Ga and 68Ga-labeled drugs are successfully prepared through the low-energy medical cyclotron solid target system and the automated purification and synthesis module, which provide a strong guarantee for clinical practice.
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Objective:To investigate the clinical application of 68Ga-cyclo( L-arginylglycyl- L-α-aspartyl- D-tyrosyl-N6-(((4, 7-bis(carboxymethyl)-1, 4, 7-triazonan-1-yl)acetyl))- L-lysyl) (NODAGA-RGD) PET/CT to evaluate short-term efficacy of tyrosine kinase inhibitor (TKI) in distant metastatic differentiated thyroid cancer (dmDTC). Methods:From October 2019 to March 2023, 13 dmDTC patients (5 males, 8 females; age: 68(65, 69) years) from Nanjing First Hospital were retrospectively enrolled, of which 9 were clinically confirmed as radioactive iodine-refractory differentiated thyroid cancer (RAIR-DTC) and 4 were dmDTC without radioactive iodine treatment. All patients underwent 68Ga-NODAGA-RGD PET/CT to assess neovascularization of the target lesions (TL), and the SUV max and target background ratio (T/B) were recorded. After 3 months of TKI treatment (anrotinib ( n=9) or apatinib ( n=4)), change rates of the maximum diameter of TL and thyroglobulin (Tg) were measured. The correlation of SUV max, T/B and the change rate of the maximum diameter of TL were analyzed by Spearman rank correlation analysis. ROC curve analysis was performed for the effectiveness of the T/B and TKI therapy, and the difference of the remission rate of lesions was analyzed by Fisher exact test. Results:In 13 patients, 36 TL were measured by 68Ga-NODAGA-RGD PET/CT with SUV max of 5.44(3.43, 7.56) and T/B of 5.25(4.50, 7.23). The change rate of the maximum diameter of TL was -30%(-39%, -21%) and the change rate of Tg was -68%(-96%, -52%). T/B was negatively correlated with the change rate of the maximum diameter of TL after TKI therapy ( rs=-0.46, P=0.005), while SUV max was not correlated with the change rate of the maximum diameter of TL ( rs=0.03, P=0.883). ROC curve analysis showed that the optimal cut-off value for T/B was 4.95, with the AUC of 0.698, the sensitivity of 87.5%, and the specificity of 60.0%. Compared to lesions with T/B<4.95, those with T/B≥4.95 showed higher remission rate (2/14 vs 63.6%(14/22); P=0.006). After 3 months of TKI treatment, the disease control rate was 12/13. Conclusion:68Ga-NODAGA-RGD PET/CT can effectively reflect tumor neovascularization, predict efficacy of TKI therapy, and provide powerful imaging evidence for TKI therapy in dmDTC.
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Objective:To prepare nanoprobes by using polydopamine (PDA) as a carrier which is modified with the sonosensitizer protoporphyrin Ⅸ (PpⅨ) and labeled with 131I, 99Tc m or 177Lu, and to explore the value of these new nanoprobes in diagnosis and combination therapy of breast cancer. Methods:PDA particles were synthesized by aqueous oxidation, and a layer of polyethylene glycol (PEG) and PpⅨ were modified on the surface to product PDA-PEG-PpⅨ. Then the nuclides 131I, 99Tc m and 177Lu were labeled on PDA, respectively, and the labeling yield and stability were determined. The cytotoxicity test was conducted by comparing the viabilities of 4T1 tumor cells in free 131I group and 131I-PDA-PEG-PpⅨ group. The 4T1 cells were divided into 7 groups according to different treatment methods: PDA-PEG-PpⅨ group, PDA-PEG-PpⅨ+ photothermal therapy (PTT) group, PDA-PEG-PpⅨ+ sonodynamic therapy (SDT) group, 131I-PDA-PEG-PpⅨ+ PTT group, 131I-PDA-PEG-PpⅨ+ SDT group, 131I-PDA-PEG-PpⅨ+ PTT+ SDT group (100 μg/ml PDA-PEG-PpⅨ, 925 kBq/ml 131I), and the control group (DMEM culture medium). The cell viabilities of those groups were compared to evaluate the therapeutic effect. 4T1 tumor bearing mouse models were established, then 99Tc m-PDA-PEG-PpⅨ was injected through the tail vein (29.6 MBq) or intratumorally (14.8 MBq) to perform gamma imaging. The independent-sample t test and one-way analysis of variance were used for data analysis. Results:The PDA particles were uniform in size, with a particle size of (160.0±1.5) nm. They had a good photothermal conversion effect. A characteristic peak consistent with PpⅨ (400 nm) appeared in the UV-Vis absorption spectrum of PDA-PEG-PpIX. In the cytotoxicity test, when the radioactivity was 1.850 or 3.700 or 7.400 MBq/ml, the cell viabilities of free 131I group and 131I-PDA-PEG-PpⅨ group were significantly different ((72.18±6.57)% vs (86.07±5.17)%, (59.31±9.06)% vs (80.85±4.21)%, (42.90±1.30)% vs (72.99±5.73)%; t values: 3.71, 4.82, 11.46, P values: 0.006, 0.001, <0.001). The 131I-PDA-PEG-PpⅨ+ PTT+ SDT combination therapy had a better killing effect on 4T1 tumor cells than the combination of 131I-PDA-PEG-PpⅨ+ PTT and 131I-PDA-PEG-PpⅨ+ SDT (cell viabilities: (10.09±2.50)% vs (16.04±2.63)%, (28.65±4.72)%; F=351.66, P<0.001). In vivo imaging showed that 99Tc m-PDA-PEG-PpⅨ was stable in mouse models and could be effectively enriched in tumors. Conclusions:A multifunctional nanoprobe based on PDA is successfully prepared. The radionuclide labeling method is simple and effective, with a good stability. 131I-PDA-PEG-PpⅨ can kill 4T1 cells efficiently. 99Tc m-PDA-PEG-PpⅨ has an obvious tumor concentration effect in mouse models.
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The application of isotope exchange can realize radiolabeling in partially aqueous media, proceed under mild reaction conditions, and exclude complex purification procedure. It is suitable for one-step labeling of sensitive biomolecules with clinical application potential. This review systematically introduces the 18F/ 19F isotope exchange reactions based on carbon and those non-carbon-based reaction centers including silicon, boron, phosphorus, sulfur, gallium and iron. Discussions of the effects on isotope exchange radiochemical yields and molar activities by different reaction types, and labeling conditions and substitute groups on classic labeled substrate are held where possible, as well as recent applications in using these methodologies to develop PET probes.
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Objective:To establish standard spatial brain template and ROIs template of 11C-methyl- N-2β-carbomethoxy-3β-(4-fluorophenyl)tropane (CFT) PET images for automated quantitative analysis of dopamine transporter (DAT) distribution. Methods:From May 2014 to December 2015, 11C-CFT PET and MRI T 1 brain images of 16 healthy volunteers (3 males, 13 females; age (63.3±6.9) years) from Huashan Hospital, Fudan University were co-registered and smoothed using statistical parametric mapping(SPM)5 software based on MATLAB to create a standard spatial brain template. The ROIs template was established by ScAnVp procedures. These templates were clinically verified by using 11C-CFT PET images of 37 healthy volunteers (23 males, 14 females; age (61.7±7.1) years), 32 Parkinson′s disease (PD) patients (20 males, 12 females; age (61.1±5.4) years), 10 multiple system atrophy with predominant parkinsonism (MSA-P) patients (7 males, 3 females; age (60.8±7.1) years) and 10 progressive supranuclear palsy (PSP) patients (5 males, 5 females; age (58.4±6.1) years) from Huashan Hospital, Fudan University between January 2014 and March 2019. One-way analysis of variance was used to analyze data. Results:Based on the 11C-CFT PET images and MRI T 1 images of healthy volunteers, a standard spatial brain template for normalization of 11C-CFT PET images was created. The ROIs template was established including seven regions: bilateral caudate, anterior putamen, posterior putamen (along the long axis) and the occipital cortex. The ROIs template was accurately aligned in each verification group. The normal reference values of semi-quantitative DAT distribution in caudate, anterior putamen and posterior putamen were obtained (1.84±0.13, 2.18±0.16, 1.77±0.11). The semi-quantitative values of 11C-CFT uptake in each ROI in patients were significantly lower than those in healthy volunteers ( F values: 49.79-283.83, all P<0.05). Conclusion:The established brain templates with accurate spatial alignment for 11C-CFT image analysis can provide foundational tools for the application of 11C-CFT PET imaging in clinical practice and scientific research.
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Objective:To prepare a novel targeted prostate specific membrane antigen (PSMA) molecular probe Al 18F-PSMA-136, and evaluate the effects of the change in linker on the biological behavior and tumor targeting ability. Methods:Al 18F-PSMA-136 was prepared by replacing the phenyl of Al 18F-PSMA-137 with cyclohexyl in 1, 4, 7-triazacylononane-1, 4, 7-triaceticacid (NOTA). The inhibition abilities of PSMA of NOTA-PSMA-136 and NOTA-PSMA-137 were determined by N-acetylated-α-linked acidic dipeptidase (NAALADase) method. The radiochemical purity and in vitro stability of the labeled products were analyzed by radio-high-performance liquid chromatography. The PSMA specificity and tumor targeting capability of the probes were investigated in 22Rv1 (PSMA positive-expressing) cells and mouse models. Independent-sample t test was used to analyze the data. Results:The Ki values of NOTA-PSMA-136 and NOTA-PSMA-137 were 3.41 and 0.30 nmol/L, respectively. The labeling yield of Al 18F-PSMA-136 was (30.1±8.4)% and the specific activity was (18.7±5.3) GBq/μmol. The radiochemical purities of the two probes were both greater than 95% and the stabilities in vitro were both good. Both probes showed PSMA-specific in 22Rv1 cells, but the uptake of Al 18F-PSMA-137 was significantly higher than that of Al 18F-PSMA-136 (1 h: (1.67±0.24) vs (1.00±0.01) percentage injected activity per 1×10 5 cells (%IA/1×10 5 cells): t=4.78, P=0.003; 2 h: (2.11±0.06) vs (1.03±0.06) %IA/1×10 5 cells; t=19.90, P<0.001). MicroPET/CT imaging showed that Al 18F-PSMA-136 and Al 18F-PSMA-137 had similar distribution in vivo, mainly concentrated in kidneys, intestine, gallbladder, bladder and tumor. However, the uptake of Al 18F-PSMA-137 in tumor was significantly higher than that of Al 18F-PSMA-136 (1 h: 1.78±0.10 vs 0.54±0.08; t=13.29, P<0.001; 2 h: 1.95±0.01 vs 0.52±0.11; t=18.53, P<0.001). Conclusion:Changes in the NOTA-conjugated linker can significantly affect the PSMA inhibition ability and tumor targeting, and the imaging effect of Al 18F-PSMA-137 with strong lipophilicity is superior.
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Objective:To investigate the effects of different labeling conditions on the yield of Al 18F-labeled 1, 4, 7-triazacylononane-1, 4, 7-triaceticacid (NOTA)-prostate specific membrane antigen (PSMA)-137, and to determine the experimental condition for obtaining Al 18F-PSMA-137 probe in high yield. Methods:The effects of different pH values, buffer systems (acetic acid-sodium acetate buffer system and potassium hydrogen phthalate (KHP) buffer system), AlCl 3-ligand ratios, ligand amounts, ethanol volumes and reaction temperatures on the labeling rate were investigated in detail. Results:The pH value of the reaction solution had a significant effect on the labeling rate, and the optimal range was 4.0-4.5. When the pH value was higher than 4.5, the labeling rate decreased significantly. Both the acetic acid-sodium acetate buffer system and the KHP buffer system could be used to label NOTA-PSMA-137 with Al 18F, and the KHP buffer system obtained higher labeling rate. The ratio of AlCl 3-ligand affected the labeling rate, and the highest labeling rate could be obtained when the ratio of AlCl 3-ligand was 0.54-0.62. When the ratio of AlCl 3-ligand was fixed, increasing the amount of ligand could improve the labeling yield. Adding hydrophilic organic solvent ethanol to the reaction system could significantly increase yield, with the highest labeling rate being achieved at a volume of 100 μl ethanol. The most suitable reaction temperature was 100 ℃, and when the temperature raised to 110 ℃, the labeling rate decreased significantly. The most suitable labeling conditions for NOTA-PSMA-137 were as following: 25 μl KHP buffer (0.50 mol/L, pH=4.0), 7.0 μl AlCl 3 solution (20 mmol/L), 200 μl Na 18F solution (74-80 MBq) and 230 μg ligand NOTA-PSMA-137 were mixed in a vial, then stood for 5 min and 100 μl ethanol was added, and all reagents were heated at 100 ℃ for 10 min. The yield of Al 18F-PSMA-137 under above conditions were 85.7%-88.5%. Conclusion:Optimization of labeling condition can improve the yield of Al 18F-PSMA-137 and the stability of the labeling.
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Objective:To develop the anti-CD30 monoclonal antibody 64Cu-1, 4, 7-trizacyclononane-1, 4, 7-triacetic acid (NOTA)-CD30 and visualize CD30 expression in lymphoma non-invasively. Methods:The CD30 expression levels of 5 cell lines (Karpas299, Raji, Daudi, Ramos, and U266) were assessed by Western blot. Cell lines with high and low CD30 expression were selected for flow cytometry to evaluate the specific binding affinity of anti-CD30 monoclonal antibody. Thirteen NSG mice were used to established CD30 positive and negative subcutaneous xenograft models. 64Cu-NOTA-CD30 was obtained and 64Cu-NOTA-immunoglobulin (Ig)G was used as the control. ImmunoPET imaging was performed 2, 24, and 48 h after the injection of 64Cu-NOTA-CD30 or 64Cu-NOTA-IgG. Finally, the biodistribution studies were conducted. Repeated-measures analysis of variance and Bonferroni test were conducted for comparison. Results:Karpas299 showed the highest CD30 expression, while Raji showed the lowest. Flow cytometry showed specific binding affinity of the anti-CD30 monoclonal antibody to the Karpas299 cell line. The radiochemical purities of the probes were both higher than 95%. In microPET, the 64Cu-NOTA-CD30 uptake of Karpas299 xenograft tumors increased over time, with (11.46±0.58), (17.60±1.16) and (19.46±0.99) percentage activity of injection dose per gram of tissue (%ID/g) at 2, 24 and 48 h respectively. The contrast to normal tissue was good at 48 h, with the tumor/heart (blood) ratio of 2.20±0.22. The uptake of 64Cu-NOTA-CD30 in Karpas299 tumor at 48 h after injection was significantly higher than that in Raji tumor ((6.10±1.03) %ID/g) and 64Cu-NOTA-IgG in Karpas299 tumor ((5.12±0.89) %ID/g; F=290.99, t values: 19.65 and 22.25, all P<0.001). The uptake of 64Cu-NOTA-CD30 and the control probe in the heart and liver decreased over time in all groups. Ex vivo biodistribution at 48 h was mainly consistent with the results of microPET in vivo. Conclusions:64Cu-NOTA-CD30 is able to visualize the expression level and distribution of CD30 non-invasively. It is promising to be applied for screening the beneficial groups and evaluating efficacy for CD30-targeted immunotherapy.
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Objective:To label mesenchymal stem cells (MSCs) with 89Zr-oxine complex, and assess its characteristics of PET imaging in systemic lupus erythematosus (SLE) model (MRL/lpr mice). Methods:SLE mice were screened by 18F-FDG PET imaging. 89Zr-oxine was prepared and used for labeling MSCs (10 6 MSCs and 1 MBq 89Zr-oxine). 89Zr-oxine-labeled MSCs (0.2 MBq) were injected into MRL/lpr mice and BALB/c mice (each n=5) via tail vein at a dose of 1.2×10 6 cells per mouse, and followed with microPET imaging in vivo at 2 h, 6 h, 1 d, 3 d, 7 d, 10 d and 14 d after injection. The percentage activity of injection dose per gram of tissue (%ID/g) was calculated. Independent-sample t test was used to analyze the data. Results:MSCs was successfully labeled with 89Zr-oxine, with the labeling efficiency of 20% and cell viability >90%. MicroPET imaging showed that MSCs were mainly distributed in lungs and the liver sites at 2 h after injection. The number of MSCs homing to kidneys of MRL/lpr mice ( n=5) increased significantly 24 h after the injection, and the renal uptake of MSCs in MRL/lpr mice was much higher than that in BALB/c mice ((8.28±1.27) vs (4.33±0.94) %ID/g; t=3.54, P=0.024). The renal uptake increased firstly and then decreased and then leveled off, indicating MSCs homing to kidneys. Conclusions:A method for 89Zr-oxine labeling of MSCs is successfully established. 89Zr-labeled MSCs can home to kidneys of SLE mice. PET imaging of 89Zr-labeled MSCs can be effectively used to explore the in vivo distribution and migration behavior of transplanted MSCs during the treatment of diseases such as SLE.
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Objective:To explore the value of 68Ga-prostate specific membrane antigen (PSMA)-11 PET/CT in newly diagnosed prostate cancer patients with different risk stratifications, and to compare the performance of this modality with conventional imaging in detecting metastases. Methods:From June 2019 to July 2020, the clinical and imaging data of 60 patients (age range: 44-88 years, median age 69 years) who underwent 68Ga-PSMA-11 PET/CT imaging in Fudan University Shanghai Cancer Center were retrospectively analyzed. Spearman rank correlation analysis was used to explore the correlation of SUV max in primary foci with prostate specific antigen (PSA) and Gleason score (GS). Based on the D′Amico risk stratification (PSA>20 μg/L and ≤20 μg/L, GS>7 and ≤7), the detection rates of 68Ga-PSMA-11 PET/CT for metastases were evaluated by χ2 test, and the differences of SUV max were analyzed by Mann-Whitney U test. Patients were divided into high-risk (PSA>20 μg/L and GS>7), medium-risk (PSA>20 μg/L and GS≤7, or PSA≤20 μg/L and GS>7), and low-risk (PSA<20 μg/L and GS<7) groups according to PSA levels and GS. Compared with conventional imaging (bone imaging, CT or MRI), the ability of 68Ga-PSMA-11 PET/CT to detect metastatic tumors, and the utility to change the prostate cancer stage were evaluated by Fisher′s exact test. Results:High uptake of 68Ga-PSMA-11 was observed in primary lesions of 60 patients, and SUV max was positively correlated with GS or PSA ( rs values: 0.42, 0.38; P values: 0.001, 0.002). The detection rates of lymph node and bone metastases in the group with PSA>20 μg/L were 11/18 and 13/18, respectively, which were higher than those in the group with PSA≤20 μg/L (28.57%(12/42) and 35.71%(15/42); χ2 values: 6.56, 7.56, P values: 0.010, 0.006. However, there was no statistical significance in the SUV max of these lesions( z values: -1.04, -0.96; P values: 0.299, 0.337). There was a statistical difference in the detection rates of lymph node and bone metastases between the group with GS>7 and the group with GS≤7 (lymph node: 54.05%(20/37) vs 13.04%(3/23), χ2=10.09, P=0.001; bone metastases: 59.46%(22/37) vs 26.09%(6/23), χ2=8.19, P=0.004), as well as the SUV max of bone metastases( z=-2.02, P=0.044). In the high-risk group, 68Ga-PSMA-11 PET/CT had the higher detection rate of metastases than conventional imaging (16/17 vs 10/17; P=0.039) and it changed 25.0%(15/60) of the patients′ staging. Conclusions:PSA and GS affect the detection rate of 68Ga-PSMA-11 PET/CT. In patients with high-risk prostate cancer, 68Ga-PSMA-11 PET/CT is superior to conventional imaging in detecting metastases. When PSA>20 μg/L and GS>7, it is better to use 68Ga-PSMA-11 PET/CT in prostate cancer staging.
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Objective:To explore the feasibility of pretargeting technique for immunoPET with epidermal growth factor receptor (EGFR) monoclonal antibody in EGFR positive/negative tumor bearing mice.Methods:Cetuximab- Trans-cyclooctene (TCO)was obtained by modifying Cetuximab with TCO- N-hydroxysuccinimide (NHS). 2, 2′-((6-amino-1-(4, 7-bis-(carboxymethyl)-1, 4, 7-triazonan-1-yl)hexan-2-yl)azanediyl)-diacetic acid (L-NETA)was used as a chelating agent to prepare the radioligand 68Ga-L-NETA-tetrazine (Tz), then the labeling rate and in vitro stability of the product were determined. Human basal breast cancer cells MDA-MB-468 (EGFR+ ) and MDA-MB-231 (EGFR-) were cultured in vitro. In vitro experiments were performed to explore the specificity of the probe and the feasibility of pretargeting technique. Nude mice (Balb/c-nu) bearing xenografts of the above two cell lines were established. Cetuximab-TCO (50 μg) was injected into the tumor-bearing mice in advance, then 68Ga-L-NETA-Tz was injected at different time points (48, 36, 24 and 12 h), and pretargeting was realized through " click chemistry" . Small-animal PET imaging and biodistribution were performed to evaluate pharmacokinetic properties and specificity of the probe. The one-way analysis of variance was used to compare the data. Results:The 68Ga-L-NETA-Tz molecular probe was successfully prepared with the labeling yield >95%, and the radiochemical purity was >95% after 2 h. Cetuximab-TCO and 68Ga-L-NETA-Tz were added to MDA-MB-468 cells successively, and the cell uptake rate reached (0.69±0.04)% at 1 h, which demonstrated the feasibility of the pretargeting technique. PET imaging and biodistribution results showed that the best imaging results were obtained in 36 h pre-injection group, in which the tumor uptake was the highest ((0.77±0.05) percentage activity of injection dose per gram of tissue (%ID/g), 1 h) and the tumor/muscle ratio was optimal (4.67±0.46); the tumor uptake in the blocking group, the group without injecting Cetuximab-TCO, and the MDA-MB-231 group were significantly lower ((0.35±0.01), (0.39±0.05), (0.45±0.10) %ID/g; F=15.50, P=0.002). Conclusions:EGFR targeted immunoPET imaging is successfully performed in mouse models of breast cancer by injecting Cetuximab-TCO and 68Ga-L-NETA-Tz successively. It provides an effective method for immunoPET imaging of monoclonal antibodies.
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Objective:To prepare 89Zr labeled Daratumumab and evaluate its feasibility in the imaging diagnosis of multiple myeloma (MM). Methods:According to the principle of 89Y (p, n) 89Zr nuclear reaction, 89Zr was produced by cyclotron solid target system (30 μA, 1.5 h) and automatic purification module. The radionuclide purity, half-life and impurity metal ion concentration were detected. Desferrioxamine (DFO) was coupled with Daratumumab and then chelated with 89Zr to prepare 89Zr-DFO-Daratumumab. The quality control analyses of three consecutive batches were carried out. Pharmacokinetic evaluation and 89Zr-DFO-Daratumumab microPET/CT imaging were performed in normal rabbits and orthotopic myeloma mouse models, respectively. The SUV in situ myeloma and that in normal bone were compared by independent-sample t test. Results:About 560 MBq of 89Zr was obtained, and there were only two characteristic energy peaks of 89Zr (909 keV and 511 keV) by γ spectrometer. The half-life of 89Zr was 78.2 h, and the content of metal impurities was small. 89Zr-DFO-Daratumumab was prepared with pH of 7.2, radiochemical purity of more than 99%, good stability in vitro, and sterility and endotoxin tests were passed. Pharmacokinetic studies in rabbits showed that 89Zr-DFO-Daratumumab was gradually distributed from blood to liver, spleen, kidney and bone joints over time and metabolism. The results of microPET/CT imaging in orthotopic myeloma mouse models showed that the SUVs of 89Zr-DFO-daratumumab in situ myeloma were significantly higher than those in normal bone (2 h: 0.22±0.02 vs 0.06±0.00; 1 d: 0.38±0.01 vs 0.08±0.00; t values: 8.89, 21.90, both P=0.001). Conclusion:89Zr and 89Zr-DFO-daratumumab are successfully prepared, and relevant quality control and biological evaluation in vivo and in vitro are completed, which verify the feasibility of 89Zr-DFO-Daratumumab in the imaging diagnosis of MM, thus laying a foundation for clinical transformation.
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Objective:To synthesize a novel site-specifically labelled probe 68Ga-1, 4, 7, 10-tetraazacyclododecane-1, 4, 7, 10-tetraacetic acid (DOTA)-Cys-Asp-Val (CDV)-Nb109 and explore its potential for detection of the programmed cell death ligand 1 (PD-L1) expression level in different tumors. Methods:Firstly, CDV was inserted into the tail of the sequence of Nb109 by genetic engineering. Then the precursor DOTA-CDV-Nb109 was prepared by mixing the maleimide-DOTA and the single-domain antibody CDV-Nb109 (amount of substance ratio 1∶1) via the maleimide-cysteine site-specific coupling strategy. Subsequently, the DOTA-CDV-Nb109 was labeled with 68Ga and purified by PD-10 column. Human melanoma A375, human PD-L1 transfected melanoma A375-hPD-L1 and human glioma U87 tumor-bearing mice models were established, and the diagnostic value of 68Ga-DOTA-CDV-Nb109 was evaluated by stability assay, cellular uptake, and microPET imaging. One-way analysis of variance and the least significant difference t test were used to analyze the data. Results:The probe 68Ga-DOTA-CDV-Nb109 was obtained with the radiochemical yield of (69.79±4.69)%, radiochemical purity more than 97%, and molar activity of (12.85±1.51) GBq/μmol. 68Ga-DOTA-CDV-Nb109 had strong binding affinity for A375-hPD-L1 with the dissociation constant ( Kd) of (66.43±17.89) nmol/L. The uptake of 68Ga-DOTA-CDV-Nb109 in A375-hPD-L1 and U87 cells were (3.17±0.15) percentage of the added radioactivity dose (%AD) and (2.08±0.03) %AD respectively, which were significantly higher than that in A375 cells ((1.21±0.14) %AD; F=82.87, t values: 15.23, 9.98, P values: <0.001, 0.003). The tumor uptake of the probe in A375-hPD-L1 ((5.21±0.35) percentage of injected dose per ml (%ID/ml)) and U87 tumor-bearing mice ((3.44±0.69) %ID/ml) were significantly higher than that in A375 tumor-bearing mice ((2.17±0.36) %ID/ml; F=249.72, t values: 35.70, 3.43, both P<0.001). Conclusion:The site-specifically labelled probe 68Ga-DOTA-CDV-Nb109, which can non-invasively and dynamically monitor the change of PD-L1 expression level in different tumors and help screen patients who can benefit from PD-L1 immune checkpoint blocking therapy, is successfully synthesized with high radiochemical purity.
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Objective:To investigate the kinetic metrics of 68Ga-fibroblast activation protein inhibitor (FAPI)-04 in pancreatic cancers and normal organs by using total-body PET dynamic imaging. Methods:From December 2020 to December 2021, 68Ga-FAPI-04 total-body PET/CT dynamic imaging were performed on 6 pancreatic cancer patients (3 males, 3 females, median age 55.5 years) in Ren Ji Hospital, School of Medicine, Shanghai Jiao Tong University. Images were respectively analyzed. Manual delineations of volume of interests (VOIs) on multiple normal organs and pathological lesions were performed and time-to-activity curves (TACs) were generated. A reversible two-tissue compartment model (2TCM) was fitted for each tissue TAC. Rate constants including K1, k2, k3 and k4, and the total volume of distribution ( Vt) were obtained and compared by tissue types. Wilcoxon rank sum test and Spearman correlation analysis were used for data analysis. Results:Kinetic metrics varied significantly among normal organs and pancreatic cancer lesions ( z values: 2.00-1 240.00, all P<0.05). The highest K1 among lesions was observed in primary tumor (0.30 min -1), which was observed in the spleen (1.42 min -1) among normal organs. The highest k2 among lesions was observed in peritoneal metastases (0.24 min -1), which was observed in the spleen (2.59 min -1) among normal organs. Primary tumor showed the highest k3 of 0.17 min -1 among lesions, and the pancreas had the highest k3 of 0.16 min -1 among normal organs. Primary tumor had the highest k4 of 0.03 min -1 among lesions, and the heart, lungs, parotid glands had high k4(0.06 min -1) among normal organs. Vt were higher in pathological lesions compared to normal organs, with the highest in primary tumor (13.78 ml/cm 3). There were correlations between Vt in lesions and SUV mean( rs=0.86, P<0.001) or SUV max ( rs=0.77, P<0.001). Conclusion:The rate constants including K1, k2, k3 and k4, and Vt of 68Ga-FAPI-04 vary among normal organs and lesions.
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Objective:To prepare specific molecular probe 18F-AlF-1, 4, 7-triazacylononane-1, 4, 7-triacetic acid-(polyethylene glycol) 4-ZD2 ( 18F-AlF-NOTA-PEG 4-ZD2) for targeting extradomain-B fibronectin (EDB-FN), and evaluate its properties in vitro and in vivo. Methods:18F-AlF-NOTA-PEG 4-ZD2 was prepared by one-step chelation labeling with Al 18F. The radiochemical purity and in vitro stability were determined by high performance liquid chromatography (HPLC). The partition coefficient (logP) of 18F-AlF-NOTA-PEG 4-ZD2 was evaluated, and the cell uptake experiment was carried out (triple-negative breast cancer (MDA-MB-231) cells (1×10 6/tube) were divided into 3 groups ( n=3 per group); positive group, inhibition group, control group). MicroPET imaging was performed on MDA-MB-231 bearing nude mice ( n=3) after 18F-AlF-NOTA-PEG 4-ZD2 injection (30, 60, 90, 120 min) and compared with blocking group ( n=3, NOTA-PEG 4-ZQ 2 was preinjected at 0.5 h before 18F-AIF-NOTA-PEG a-ZD2 injection). Independent-sample t test was used to analyze the data. Results:18F-AlF-NOTA-PEG 4-ZD2 was successfully prepared. The optimized radiochemical yield was (33.8±2.1)% (undecay corrected, n=8) and the radiochemical purity was >96%. After incubating 120 min at 37 ℃, the radiochemical purity of 18F-AlF-NOTA-PEG 4-ZD2 in human serum and PBS was >93%, indicating its good stability in vitro. The specific activity was (11.1±3.2) GBq/μmol, and logP was -1.43±0.05. The uptake value of tumor cells was (1.77±0.28) percentage applied activity (%AR)/10 6 cells at 120 min post-injection in positive group, and the total uptake value of the inhibition group was (0.76±0.07) %AR/10 6 cells ( t=4.30, P=0.032). MicroPET imaging in tumor bearing nude mice showed that 18F-AlF-NOTA-PEG 4-ZD2 was mainly metabolized by the liver and kidneys. The tumor uptake value was (1.94±0.21) percentage activity of injection dose per gram of tissue (%ID/g) at 60 min post-injection and the tumor/muscle ratio was 3.80±0.25 at 90 min post-injection in the experimental group, while the tumor uptake value of tumor bearing nude mice in the blocking group was (0.43±0.09) %ID/g at 60 min post-injection ( t=3.18, P=0.006). Conclusions:18F-AlF-NOTA-PEG 4-ZD2 can be prepared simply with high labeling rate and good stability in vitro, with high tumor uptake and tumor/muscle ratio in microPET imaging, and good specificity and long tumor residence time. The probe has good application prospect in breast cancer with high expression of fibronectin subtype EDB-FN.
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Objective:To realize a fully automated synthesis of 11C-meta-hydroxyephedrine (mHED) and to perform imaging studies with it. Methods:11C-mHED was prepared by the 11CH 3-triflate method. The crude product was purified by semi-preparative high performance liquid chromatograph (HPLC) to obtain the final product. The radiochemical purity and specific activity were determined by radio-HPLC. The myocardial uptake and excretion process of the agent were monitored by microPET/CT imaging on 5 normal SD rats. The clinical imaging value was evaluated using PET/CT imaging in a patient (male, 42 years old) with myocardial infarction. Results:The automated synthesis of 11C-mHED was realized by a commercial synthesizer. The total synthesis time was about 30 min. The radiochemical yield was (15±2)% (non-decay corrected, n=10) and the radiochemical purity was greater than 98%. The specific activity was about 65 GBq/mmol. MicroPET/CT imaging in normal SD rats showed the myocardial uptake was highest at 10 min after the injection of imaging agent, and then the imaging agent was gradually excreted from the myocardium through the liver and gallbladder. PET/CT imaging of a patient with myocardial infarction showed an imaging agent defect near the apex in the inferior wall of the left ventricle, which was matched with results of ultrasound and electrocardiogram examination. Conclusions:11C-mHED can be successfully prepared automatically, with high radiochemical yield and specific activity. It can also highly concentrate in the myocardium, and the imaging effect with this agent is good in a patient with myocardial infarction.
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Objective:To optimize the preparation conditions and methods of Al 18F-prostate specific membrane antigen (PSMA)-11 and evaluate the feasibility of clinical transformation. Methods:PSMA- N, N′-bis(2-hydroxy-5-(carboxyethy)benzyl)ethylenediamine- N, N′-diacetic acid (HBED-CC) dissolved in CH 3COONH 4 buffer (pH=4.8) was reacted with AlCl 3·3H 2O dissolved in pure water at a molar ratio of 1∶1 (60 ℃, 10 min), and then purified by tC18 column and freeze-dried to obtain [Al]-PSMA-11. [Al]-PSMA-11 was labeled by 18F - and the effects of reaction temperature and pH value on the labeling rate were investigated. The labeled products were purified by tC18 column and filtered through sterile filter to obtain Al 18F-PSMA-11. The comparison of biodistribution between Al 18F-PSMA-11 and 68Ga-PSMA-11 was analyzed on 5 healthy volunteers (age (56±8) years). The differences of SUV max between two groups were analyzed by independent-sample t test. Besides, the early and delayed imaging of Al 18F-PSMA-11 PET/CT were performed on a patient (70 years old) with recurrent prostate cancer for assessment of its potential for prostate cancer recurrence monitoring. Results:The labeling rate was (42.3±3.2)% reacting in aqueous phase (60 ℃, pH=4.8) for 15 min. After being purified with tC18 cartridge, the radiochemical purity of the product was still more than 95% after placement at room temperature for 3 h. Preliminary application demonstrated that there was no significant difference in the biodistribution of Al 18F-PSMA-11 and 68Ga-PSMA-11 among lacrimal gland, parotid gland, submandibular gland, liver, spleen, kidney, bladder and part of intestine and SUV max of targeted organs were also not different ( t values: 0.19-1.95, all P>0.05) between two groups. Multiple bone metastases were observed by Al 18F-PSMA-11 PET/CT delayed imaging (3 h) in a patient with recurrent prostate cancer. Conclusion:Al 18F-PSMA-11 produced with pre-conjugated [Al]-PSMA-11 meets the requirement of the PET imaging application, and it has good potential of localization and imaging for prostate cancer metastatic lesions.
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Objective:To investigate the preparation methods and quality control of 177Lu-labeled radiopharmaceuticals, and conduct preliminary clinical application research. Methods:177Lu-1, 4, 7, 10-tetraazacyclododecane-1, 4, 7, 10-tetraacetic acid (DOTA)- D-Phe1-Tyr3-octreotide (TOC) and 177Lu-prostate specific membrane antigen (PSMA)-I&T were labeled by manual labeling and automatic labeling, respectively. Factors such as the amount of precursor and nuclide, reaction temperature, pH value, reaction time, labeling yield and specific activity were investigated. Quality control of the products were carried out, such as clarity, pH value, sterility, bacterial endotoxin and stability in vitro. 177Lu-PSMA-I&T was applied to the treatment of prostate cancer patients, and the efficacy was evaluated by SPECT/CT imaging. Paired t test was used to analyze the data. Results:The amount of precursor and nuclide, reaction temperature, pH value and reaction time of the two methods were basically the same, both with high yield and specific activity. The yield of 177Lu-DOTA-TOC automatic labeling was significantly higher than that of manual labeling (99.2±0.4)% vs (95.3±1.5)% ( t=7.17, P<0.001), and the specific activity were (91.6±13.7) vs (89.1±13.2) GBq/μmol. The yield of 177Lu-PSMA-I&T automatic labeling was also significantly higher than that of manual labeling (99.6±0.3)% vs (95.7±1.3)% ( t=8.24, P<0.001), and the specific activity were (96.1±14.3) vs (93.2±13.8) GBq/μmol. The labeled products were colorless clear solution with pH value of 6.5-7.0. The sterility and bacterial endotoxin met the requirements. The radiochemical purity of the labeled products was more than 95% after 48 h, which showed good stability. The clinical application of 177Lu-PSMA-I&T in patients with prostate cancer showed that both primary and metastatic lesions had good uptake. Conclusions:The labeling of 177Lu radiopharmaceuticals is simple and has high yield and stability. The application of automatic labeling can simplify the process, improve the yield and reduce irradiation.