Bok-Nam Park scite author profile

89Zr is an emerging radionuclide that plays an essential role in immuno-positron emission tomography (PET) imaging. The long half-life of 89Zr (t1/2 = 3.3 days) is favorable for evaluating the in vivo distribution of monoclonal antibodies. Thus, the use of 89Zr is promising for monitoring antibody-based cancer therapies. Immuno-PET combines the sensitivity of PET with the specificity of antibodies. A number of studies have been conducted to investigate the feasibility of 89Zr immuno-PET imaging for predicting the efficacy of radioimmunotherapy and antibody therapies, imaging target expression, detecting target-expressing tumors, and the monitoring of anti-cancer chemotherapies. In this review, we summarize the current status of PET imaging using 89Zr in both preclinical and clinical studies by highlighting the use of immuno-PET for the targets of high clinical relevance. We also present 89Zr-PET applications other than immuno-PET, such as nanoparticle imaging and cell tracking. Finally, we discuss the limitations and the ongoing research being performed to overcome the remaining hurdles.

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Early distribution of intravenously injected mesenchymal stem cells in rats with acute brain trauma evaluated by 99mTc-HMPAO labeling

Park

Shim

Lee

et al. 2011

Nuclear Medicine and Biology

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Improved dopamine transporter binding activity after bone marrow mesenchymal stem cell transplantation in a rat model of Parkinson’s disease: small animal positron emission tomography study with F-18 FP-CIT

et al. 2014

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Radiolabeled Anti-Adenosine Triphosphate Synthase Monoclonal Antibody as a Theragnostic Agent Targeting Angiogenesis

et al. 2017

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Introduction:The potential of a radioiodine-labeled, anti-adenosine triphosphate synthase monoclonal antibody (ATPS mAb) as a theragnostic agent for simultaneous cancer imaging and treatment was evaluated.Methods:Adenosine triphosphate synthase monoclonal antibody was labeled with radioiodine, then radiotracer uptake was measured in 6 different cancer cell lines. In vivo biodistribution was evaluated 24 and 48 hours after intravenous injection of 125I-ATPS mAb into MKN-45 tumor-bearing mice (n = 3). For radioimmunotherapy, 18.5 MBq 131I-ATPS mAb (n = 7), isotype immunoglobulin G (IgG) (n = 6), and vehicle (n = 6) were injected into MKN-45 tumor-bearing mice for 4 weeks, and tumor volume and percentage of tumor growth inhibition (TGI) were compared each week.Results:MKN-45 cells showed the highest in vitro cellular binding after 4 hours (0.00324 ± 0.00013%/μg), which was significantly inhibited by unlabeled ATPS mAb at concentrations of greater than 0.4 μM. The in vitro retention rate of 125I-ATPS mAb in MKN-45 cells was 64.1% ± 1.0% at 60 minutes. The highest tumor uptake of 125I-ATPS mAb in MKN-45 tumor-bearing mice was achieved 24 hours after injection (6.26% ± 0.47% injected dose [ID]/g), whereas tumor to muscle and tumor to blood ratios peaked at 48 hours. The 24-hour tumor uptake decreased to 3.43% ± 0.85% ID/g by blocking with unlabeled ATPS mAb. After 4 weeks of treatment, mice receiving 131I-ATPS mAb had significantly smaller tumors (679.4 ± 232.3 mm3) compared with control (1687.6 ± 420.4 mm3, P = .0431) and IgG-treated mice (2870.2 ± 484.1 mm3, P = .0010). The percentage of TGI of 131I-ATPS mAb was greater than 50% during the entire study period (range: 53.7%-75.9%).Conclusion:The specific binding and antitumor effects of radioiodinated ATPS mAb were confirmed in in vitro and in vivo models of stomach cancer.

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Therapeutic effect of mesenchymal stem cells in an animal model of Alzheimer’s disease evaluated by β-amyloid positron emission tomography imaging

Park

Kim

Lim

et al. 2020

Aust N Z J Psychiatry

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Objective: We evaluated the effects of bone marrow–derived mesenchymal stem cells in a model of Alzheimer’s disease using serial [18F]Florbetaben positron emission tomography. Methods: 3xTg Alzheimer’s disease mice were treated with intravenously injected bone marrow–derived mesenchymal stem cells, and animals without stem cell therapy were used as controls. Serial [18F]Florbetaben positron emission tomography was performed after therapy. The standardized uptake value ratio was measured as the cortex standardized uptake value divided by the cerebellum standardized uptake value. Memory function and histological changes were observed using the Barnes maze test and β-amyloid-reactive cells. Results: Standardized uptake value ratio decreased significantly from day 14 after stem cell administration in the bone marrow–derived mesenchymal stem cells–treated group ( n = 28). In contrast, there was no change in the ratio in control mice ( n = 25) at any time point. In addition, mice that received bone marrow–derived mesenchymal stem cell therapy also exhibited significantly better memory function and less β-amyloid-immunopositive plaques compared to controls. Conclusion: The therapeutic effect of intravenously injected bone marrow–derived mesenchymal stem cells in a mouse model of Alzheimer’s disease was confirmed by β-amyloid positron emission tomography imaging, memory functional studies and histopathological evaluation.

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Bok-Nam Park

Current Perspectives on 89Zr-PET Imaging

Early distribution of intravenously injected mesenchymal stem cells in rats with acute brain trauma evaluated by 99mTc-HMPAO labeling

Improved dopamine transporter binding activity after bone marrow mesenchymal stem cell transplantation in a rat model of Parkinson’s disease: small animal positron emission tomography study with F-18 FP-CIT

Radiolabeled Anti-Adenosine Triphosphate Synthase Monoclonal Antibody as a Theragnostic Agent Targeting Angiogenesis

Therapeutic effect of mesenchymal stem cells in an animal model of Alzheimer’s disease evaluated by β-amyloid positron emission tomography imaging

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