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KMID : 0861420120160010008
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Korean Journal of Nuclear Medicine Technology
2012 Volume.16 No. 1 p.8 ~ p.11
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Radiolysis Assessment of 18F-FDG According to Automatic Synthesis Module
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Kim Si-Hwal
Kim Dong-Il
Ji Yong-Gi
Choi Sung-Ook
Choi Choon-Ki
Seok Jae-Dong
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Abstract
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Purpose: Among quality control items, the radiochemical impurity must be below 10% of total radioactivity. In this regard, as the recently commercialized automatic synthesis module produces a large amount of 18F-FDG, radiolysis of radiopharmaceuticals is very likely to occur. Thus, this study compared the changes in radiochemical purity regarding radiolysis of 18F-FDG according to automatic synthesis module.
Materials and Methods: Cyclotron (PETtrace, GE Healthcare) was used to produce 18F and automatic synthesis module (FASTlab, Tracerlab MX, GE Healthcare) was used to achieve synthesis into FDG. For radiochemical purity, Radio-TLC Scanner (AR 2000, Bioscan), GC (Gas Chromatograph, Agilent 7890A) was used to measure the content of ethanol included in 18F-FDG. Glass board applied with silica gel (1 ¡¿ 10 cm) was used for stationary phase while a mixed liquid formed of acetonitrile and water (ratio 19:1) was used for mobile phase. High-concentration and low-concentration 18F-FDG were produced in each synthesis module and the radiochemical purity was measured every 2 hours.
Results: The purity in low-concentration (below 2.59 GBq/mL) was measured as 99.26%, 98.69%, 98.25%, 98.09% in Tracerlab MX and as 99.09%, 97.83%, 96.89%, 96.62% in FASTlab according to 0, 2, 4, 6 hours changes, respectively. The purity in high-concentration (above 3.7 GBq/mL) was measured as 99.54%, 96.08%, 93.77%, 92.54% in Tracerlab MX and as 99.53%, 95.65%, 92.39%, 89.82% in FASTlab according to 0, 2, 4, 6 hours changes, respectively. Also, ethanol was not detected in GC of 18F-FDG produced in FASTlab, while 100~300 ppm ethanol was detected in Tracerlab MX.
Conclusion: Whereas the change of radiochemical purity was only 3% in low-concentration 18F-FDG, the change was rapidly increased to 10% in high-concentration. Also, higher radiolysis were observed in 18F-FDG produced in FASTlab than Tracerlab MX. This is because ethanol is included in the synthesis stage of Tracerlab MX but not in the synthesis stage of FASTlab. Thus, radiolysis is influenced by radioactivity concentration than the inclusion of ethanol, which is the radioprotector. Therefore, after producing high-concentration 18F-FDG, the content must be diluted through saline to lower concentration.
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KEYWORD
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18F-FDG, Radiochemical purity, TLC, Radiolysis
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