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Objective Using Cerenkov radiation energy transfer (CRET) effect of rare earth nanoparticles (RENPs) to enhance and convert Cerenkov luminescence into Cerenkov luminescence excited fluorescence,and to compare the accuracy of Cerenkov luminescence tomography (CLT) and Cerenkov luminescence excited fluorescence tomography (CLFT).Methods 68Ga (0.74 MBq) was used to respectively excite Y2O3 ∶Eu3+,Er2O3 and Eu2O3(10 mg/ml).Various radioactivities of 68Ga (3.70,1.85,0.92,0.46,0.23 MBq) were used to respectively excite Y2O3 ∶Eu3+ with a fixed concentration (10 mg/ml).A fixed radioactivity of 68Ga (3.70 MBq) was used to excite Y2O3 ∶Eu3+ with different concentrations (10.0,5.0,2.5,1.2,0.6 mg/ml) in order to find the relationships between the optical intensity and the radioactivity of 68Ga or the concentration of Y2O3 ∶Eu3+.Polyethylene tubes containing 68Ga (0.74 MBq) and 68Ga (0.74 MBq) +Y2O3 ∶Eu3+(1 mg) were respectively implanted into two nude mice,then PET/CT and optical imaging were acquired.Three-dimensional reconstruction was proceeded.One-way analysis of variance,two-sample t test,linear correlation analysis were used for data analysis.Results Y2O3 ∶Eu3+ could significantly and stably enhance the Cerenkov optical signal (F=53.35,q =17.03,P<0.001).The enhanced optical signal intensity had linear relationships with the radioactivity of 68Ga or the concentration of Y2O3 ∶Eu3+(r values:0.99and 0.93).Three-dimensional reconstruction result showed that CLFT had significantly higher similarity than CLT (0.43±0.14 vs 0.16±0.06,t =5.090,P<0.05).Conclusion CLFT could reflect the distribution of radiopharmaceuticals more precisely than CLT,and therefore might have potential in biologic optical imaging.
ABSTRACT
Objective To quantitatively compare the diagnostic capability of 68Ga-NGR and 18F-FDG in well-differentiated hepatocellular carcinoma (HCC) bearing mice by microPET/CT imaging.Methods The in vitro cellular uptake, in vivo microPET/CT imaging and biodistribution studies of 68Ga-NGR and 18F-FDG were quantitatively compared in SMMC-7721-based well-differentiated HCC.The human fibrosarcoma (HT-1080) and human colorectal adenocarcinoma (HT-29) cells/xenografts were respectively used as positive and negative reference groups for CD13.The expression of CD13 was qualitatively verified by immunohistostaining.The levels of CD13 and glucose-6-phosphatase (G6Pase) were semi-quantitatively analyzed by Western blot test for all 3 types of tumors.Two-sample t test was used for data analysis.Results The in vitro cellular uptake showed that the 68Ga-NGR uptake in SMMC-7721 and HT-1080 cells was higher than that in HT-29 cells, and the 68Ga-NGR uptake was higher than 18F-FDG uptake in SMMC-7721 cells.The in vivo microPET/CT imaging results revealed that the uptake of 68Ga-NGR in SMMC-7721 tumor was (2.17±0.21) %ID/g, remarkably higher compared to (0.73±0.26) %ID/g of 18F-FDG uptake (t=8.826, P<0.01).The tumor/liver ratio of 68Ga-NGR was 2.05±0.16, which was 2.03-fold higher than that of 18F-FDG.In the HT-1080 tumors, the uptakes of 68Ga-NGR and 18F-FDG were both high, and the values were (2.46±0.23) %ID/g, (3.47±0.31) %ID/g.The uptake of 68Ga-NGR was significantly lower than that of 18F-FDG in HT-29 tumors: (0.67±0.20) %ID/g vs (3.17±0.29) %ID/g;t=4.221, P<0.01.Western blot and immunohistostaining results were as follows: HT-1080(CD13+, G6Pase-), SMMC-7721(CD13+, G6Pase+), HT-29(CD13-, G6Pase-).Conclusions The uptake of 68Ga-NGR is higher than 18F-FDG uptake in SMMC-7721 tumor bearing mice, therefore it is worthwhile to consider the feasibility of clinical translation for PET/CT in diagnosis of HCC.Furthermore, because of the difference in 68Ga-NGR and 18F-FDG avidities in tumors with different molecular phenotypes of CD13 and G6Pase, there is an underlying potential for molecular imaging in the determination of molecular phenotypes.
ABSTRACT
Objective To quantitatively compare the diagnostic capability of 68Ga-NGR and 18F-FDG in well-differentiated hepatocellular carcinoma (HCC) bearing mice by microPET/CT imaging.Methods The in vitro cellular uptake,in vivo microPET/CT imaging and biodistribution studies of 68Ga-NGR and 18F-FDG were quantitatively compared in SMMC-7721-based well-differentiated HCC.The human fibrosarcoma (HT-1080) and human colorectal adenocarcinoma (HT-29) cells/xenografts were respectively used as positive and negative reference groups for CD13.The expression of CD13 was qualitatively verified by immunohistostaining.The levels of CD13 and glucose-6-phosphatase (G6Pase) were semi-quantitatively analyzed by Western blot test for all 3 types of tumors.Two-sample t test was used for data analysis.Results The in vitro cellular uptake showed that the 68Ga-NGR uptake in SMMC-7721 and HT-1080 cells was higher than that in HT-29 cells,and the 68Ga-NGR uptake was higher than 18F-FDG uptake in SMMC-7721 cells.The in vivo micro-PET/CT imaging results revealed that the uptake of 68Ga-NGR in SMMC-7721 tumor was (2.17±0.21) %ID/g,remarkably higher compared to (0.73±0.26) %ID/g of 18F-FDG uptake (t =8.826,P<0.01).The tumor/liver ratio of 68Ga-NGR was 2.05±0.16,which was 2.03-fold higher than that of 18F-FDG.In the HT-1080 tumors,the uptakes of 68 Ga-NGR and 18F-FDG were both high,and the values were (2.46±0.23) %ID/g,(3.47±0.31) %ID/g.The uptake of 68Ga-NGR was significantly lower than that of 18F-FDG in HT-29 tumors:(0.67±0.20) %ID/g vs (3.17±0.29) %ID/g;t=4.221,P<0.01.Western blot and immunohistostaining results were as follows:HT-1080(CD13+,G6Pase-),SMMC-7721(CD13+,G6Pase+),HT-29 (CD13-,G6Pase-).Conclusions The uptake of 68Ga-NGR is higher than 18F-FDG uptake in SMMC-7721 tumor bearing mice,therefore it is worthwhile to consider the feasibility of clinical translation for PET/CT in diagnosis of HCC.Furthermore,because of the difference in 68Ga-NGR and 18F-FDG avidities in tumors with different molecular phenotypes of CD13 and G6Pase,there is an underlying potential for molecular imaging in the determination of molecular phenotypes.
ABSTRACT
Cerenkov luminescence imaging ( CLI) , as an emerging molecular imaging method, has been extensively studied in tumor imaging, therapy monitoring and some other aspects. However, because of the weak penetration of Cerenkov radiation, CLI can not image the deep tissues. This review summarizes the modalities to overcome this problem.