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Objective:To evaluate the feasibility of PET automatic drug infusion system combined with power peripherally inserted central catheter (PICC) for 18F-FDG injection and PET/CT imaging. Methods:Fifty patients with malignant neoplasms who underwent 18F-FDG PET/CT imaging in Shanghai General Hospital, Shanghai Jiao Tong University School of Medicine between December 2021 to July 2022 were prospectively enrolled. They were equally divided into power PICC group and peripheral venipuncture group. PET automatic drug infusion system was respectively connected with the pre-established channels of power PICC and peripheral venipuncture for 18F-FDG injection. Each patient underwent a routine PET/CT imaging at 1 h post-injection. The blood glucose, body weight, prescription dose and injection dose were recorded, and SUV max in the liver and cavoatrial junction were measured in both groups. The independent-sample t test was performed to compare the differences between 2 groups. The power PICC tip positions after 18F-FDG injection in power PICC group were observed. Results:The liver SUV max in the power PICC group and peripheral group were 2.54±0.50 and 2.57±0.31 ( t=0.37, P=0.716), and the SUV max of cavoatrial junction in the 2 groups were 1.68±0.25 and 1.63±0.22 ( t=-0.78, P=0.441), respectively. No significant differences were found in blood glucose, body weight, prescription dose and injection dose between the 2 groups ( t values: 0.00-0.13, all P>0.05). The ratios of injection dose to prescription dose in the 2 groups were 0.998 3±0.007 3 and 0.997 6±0.016 5, respectively, indicating high injection accuracy of the injection methods. No obvious drug residue was displayed at the end of catheter, resulting in good imaging quality. All the tip positions after injection were between T5 and T8, in line with the standardization management of power PICC. Conclusion:PET automatic drug infusion system combined with power PICC can be safely used for 18F-FDG injection and PET/CT imaging with less injection puncture.
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Objective:To evaluate the advantages of PET automatic drug infusion system in nuclear medicine nursing by comparing radiation dose and precision injection between artificial injection and automatic injection.Methods:From August 2021 to September 2021, 40 patients (27 males, 13 females, average age: 59.6 years) were divided into two groups (20 patients in each group) for the injection of 18F-FDG by artificial injection and automatic injection in Shanghai General Hospital, Shanghai Jiao Tong University School of Medicine. Portable radiation detector was used to measure the peak values of dose-equivalent rate in the arm and trunk of the nurse during the administration. The duration of administration process was recorded and the annual radiation doses were estimated and compared between the two injection methods. Independent-sample t test was used to compare the differences of injection parameters between two methods. Results:Based on 5 000 patients injected annually by artificial injection, the estimated annual radiation doses were about 220.19 mSv in the arm and 2.09 mSv in the trunk, while the radiation doses were approximately 0.19 and 0.08 mSv by automatic administration, respectively. Compared with the artificial injection, the automatic drug infusion system could reduce by 99% and 95% of equivalent doses in the arm and trunk, respectively. The significant difference was found in the empty needle activity between artificial injection and automatic drug infusion system ((18.87±7.77) and (0.22±0.19) MBq; t=10.65, P<0.001), while there were no statistical differences in full needle activity, injection activity and injection/prescription activity ratio ( t values: from -0.03 to 1.37, all P>0.05). Conclusion:PET automatic drug infusion system provides better radiation protection for nuclear medicine nursing.
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Objective:To explore the value of SPECT/CT imaging on programmed death receptor 1 ligand (PD-L1) expression in patients with non-small cell lung cancer (NSCLC) based on 99Tc m labeled anti-PD-L1 nanoantibodies (NM-01). Methods:From January 2019 to March 2020, a total of 14 patients (11 males, 3 females; age: (61.9±11.0) years) with pathologically confirmed NSCLC in Shanghai General Hospital, Shanghai Jiao Tong University School of Medicine were prospectively enrolled. NM-01 were labeled with 99Tc m, and patients were recruited for SPECT/CT imaging 2 h after injection with 99Tc m-NM-01((359.1±68.0) MBq). The differences of SUV max in primary and metastatic lesions between PD-L1 positive and negative patients were compared by independent sample t test. The correlation between the SUV max and PD-L1 expression of primary lesions was analyzed by Pearson correlation analysis. Results:Of 14 patients, 6 were PD-L1 positive and 8 were PD-L1 negative. 99Tc m-NM-01 showed obviously increased uptake in kidneys and liver, while mildly increased uptake in spleen and bone marrow. The SUV max of primary lesions was 4.69±1.88 and the SUV max of metastatic lesions was 2.04±1.32. The SUV max of primary lesions in PD-L1 positive patients was significantly higher than that of PD-L1 negative patients (5.99±1.99 vs 3.72±1.10; t=5.98, P=0.039). There was no significant difference in the SUV max of metastatic lesions between PD-L1 positive and negative patients (1.66±1.03 vs 2.35±1.46; t=-1.77, P=0.084). The SUV max of primary lesions was positively correlated with PD-L1 expression ( r=0.648, P=0.042). Conclusion:99Tc m-NM-01 can demonstrate the expression of PD-L1 in primary and metastatic lesions in NSCLC.
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Objective:To prepare a kind of titanium implant doped with cobalt and to study its cytotoxicity.Methods:The surface of the titanium was anodized to form TiO2 nanotube arrays.Different amount of cobalt was doped by hydrothermal treatment,which was controlled by tuning the hydrothermal treatment duration.The cytotoxicity of the cobalt doped nanotubular implant coating on bone marrow stromal cells (BMSCs)was measured by CCK-8.Results:The nanotubular implant coating with different amount of cobalt was fabricated.The proliferation of BMSCs was inhibited by the nanotubular morphology and cobalt doping.Samples formed by hydro-thermal treatment in 0.1 M cobalt acetate showed significantly cytotoxicity.Conclusion:Hydrothermal treatment of anodized titanium is an effective way for developing novel cobalt doped nanotubular implant coating.The proper dose of cobalt doping needs to be further investigated.