In this study, the team modeled the biodistribution and the efficiency of two 99m -technetium diethylene triamine penta acetate ( 99m Tc-DTPA) based radiopharmaceuticals. Methods: The first radiopharmaceutical (DTPA-CNESTEN) is developed at the laboratories of the radiopharmaceutical production unit of the National Center for Nuclear Energy, Sciences and Technologies (CNESTEN-Morocco), and the second one is the commercial DTPA (DTPA-ref). Freeze-dried kits were successfully radiolabeled (radiochemical purity >95%) with the 99m Tc. Then drugs were injected to male BALB/c mice. In each 2 min, 5 min, 15 min, 1 h and 2 h time points after injections we evaluate tissue's distributions characteristics. At the end, an automatic modeling of the data were recorded from thyroid, blood and urinary excretion kinetics and biodistribution in mice using both DTPA kits. The study aimed to extract the parameters of the function used to fit the recorded data. Results and Conclusion: the team concluded that the biodistribution of 99m Tc-DTPA can be modeled using a combination of two exponential parts. Moreover, the resultant plots showed that there is strong correlation between the formula found in literature and the one derived on the basis of the fit of data sets in this study. In addition, it was found that the biodistribution behaviors of the developed kit and the commercial one were very close. The obtained results suggest that the developed DTPA has practically the same kinetics as the commercial one.
Quality control of dose calibrators is essential to evaluate the accuracy of the instrument response. In this work, a GUI (Graphical User Interface) has been developed to facilitate performing and recording quality control tests of dose calibrators. The interface is capable to automate several tests which include routine checks, accuracy test, linearity test, reproducibility test, repeatability test, concordance MBq/mCi test, and geometry test. In principle, the program computes correction factors that should be applied to minimize the uncertainty of measurements and the determining factors for success or failure of each test, then visualizes the results as tables and curves into a pdf file. Therefore, this interface can be considered as an efficient tool for performing quality control tests of dose calibrators thought it is still unable to offer the correction factors for the geometry test without experiment which will be achieved by integrating Monte Carlo simulation into the GUI.
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