Your search keyword '"Lutetium standards"' showing total 8 results

1. (177)Lu: DDEP Evaluation of the decay scheme for an emerging radiopharmaceutical.

Author

Kellett MA

Subjects

France, Half-Life, Lutetium standards, Radiation Dosage, Radioisotopes standards, Reproducibility of Results, Sensitivity and Specificity, Algorithms, Lutetium analysis, Radioisotopes analysis, Radiometry methods, Radiometry standards, Software

Abstract

A new decay scheme evaluation using the DDEP methodology for (177)Lu is presented. Recently measured half-life measurements have been incorporated, as well as newly available γ-ray emission probabilities. For the first time, a thorough investigation has been made of the γ-ray multipolarities. The complete data tables and detailed evaluator comments are available through the DDEP website., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2016

2. Comparison of ⁹⁰Y and ¹⁷⁷Lu measurement capability in UK and European hospitals.

Author

Fenwick A, Baker M, Ferreira K, and Keightley J

Subjects

Europe, Lutetium standards, Reference Standards, United Kingdom, Yttrium Radioisotopes standards, Hospitals, Lutetium analysis, Yttrium Radioisotopes analysis

Abstract

Comparison exercises involving (90)Y and (177)Lu were performed during 2009 and 2012, respectively, to assess the measurement capability of hospitals in the UK and Europe. The results from the measurement of a typical liquid solution of (90)Y show that only 40% of participants could measure the solution to within 5% of the certificated value and that a significant -6% bias was present due to the use of non-standard geometries for the calibration of equipment. The results from the measurement of a standard liquid solution of (177)Lu show that 81% of participants could measure to within 5% of the certificated value and in fact 65% of these results were within 2% of the certificated value, showing administered activities can be far more accurately measured for (177)Lu than for (90)Y and that (177)Lu has a far smaller geometry dependence. These studies were performed to identify specific measurement issues in the user community and to identify areas where future research should be focused. In addition to this the work allows the participants to adjust measurement practice and identify key measurement issues., (© 2013 Published by Elsevier Ltd.)

Published

2014

3. Accurate activity measurement of Lu-177 by the liquid scintillation 4πβ-γ coincidence counting technique.

Author

Simpson BR, van Staden MJ, Lubbe J, and van Wyngaardt WM

Subjects

Half-Life, Internationality, Lutetium standards, Radiation Dosage, Radioisotopes standards, Reference Standards, Reference Values, Lutetium analysis, Radioisotopes analysis, Radiometry methods, Radiometry standards

Abstract

This paper reports on absolute measurements made at the NMISA by the 4π[LS]β-γ coincidence extrapolation technique, which formed part of a key comparison of activity measurements of the radionuclide lutetium-177, a beta-gamma emitter. A detection efficiency analysis based on the decay scheme indicated that the coincidence extrapolation method is feasible for extracting the source disintegration rate of (177)Lu. A simulation was undertaken utilizing the efficiency equations to give an indication of the expected variation of the source count rate with efficiency for different gamma-ray windows. Both the simulation and experiment indicated that the window giving the highest counting efficiency was centered about the 208.4 keV photopeak, with the data showing linear variation in the upper efficiency range. The extracted activity concentration of the (177)Lu solution proved to be highly accurate, being higher than the proposed comparison reference value by 0.15%, well within one standard uncertainty (σ=0.26%) as specified by the NMISA., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published

2012

4. Results of an international comparison for the activity measurement of 177Lu.

Author

Zimmerman BE, Altzitzoglou T, Antohe A, Arinc A, Bakhshandeiar E, Bergeron DE, Bignell L, Bobin C, Capogni M, Cessna JT, Cozzella ML, da Silva CJ, De Felice P, Dias MS, Dziel T, Fazio A, Fitzgerald R, Iwahara A, Jaubert F, Johansson L, Keightley J, Koskinas MF, Kossert K, Lubbe J, Luca A, Mo L, Nähle O, Ott O, Paepen J, Pommé S, Sahagia M, Simpson BR, Silva FF, van Ammel R, van Staden MJ, van Wyngaardt WM, and Yamazaki IM

Subjects

Lutetium standards, Radiation Dosage, Radioisotopes standards, Reference Standards, Reference Values, Lutetium analysis, Lutetium chemistry, Radioisotopes analysis, Radioisotopes chemistry, Radiometry instrumentation, Radiometry standards

Abstract

An international Key Comparison of (177)Lu has recently been carried out. Twelve laboratories performed assays for radioactivity content on aliquots of a common master solution of (177)Lu, leading to eleven results submitted for entry into the Key Comparison Database of the Mutual Recognition Arrangement. A proposed Comparison Reference Value (CRV) was calculated to be 3.288(4)MBq/g using all eleven results. Degrees of equivalence and their uncertainties were calculated for each laboratory based on the CRV. Most of the values reported by the participating laboratories were within 0.6% of the CRV., (Copyright © 2012. Published by Elsevier Ltd.)

Published

2012

5. Activity determination and nuclear decay data of 177Lu.

Author

Kossert K, Nähle OJ, Ott O, and Dersch R

Subjects

Germany, Half-Life, Internationality, Radiation Dosage, Reference Standards, Reference Values, Lutetium analysis, Lutetium standards, Radioisotopes analysis, Radioisotopes standards, Radiometry instrumentation, Radiometry standards

Abstract

The activity concentration of a (177)Lu solution was measured within the scope of the international comparison CCRI(II)-K2.Lu-177, starting in 2009. At PTB, the solution was measured by means of 4πβ-γ coincidence counting using a proportional counter and a NaI detector. In addition, liquid scintillation counting using the CIEMAT/NIST efficiency tracing method as well as the triple-to-double coincidence ratio (TDCR) method was applied. The efficiency computation for the TDCR method was realized by means of the MICELLE2 program, applying a stochastic model for the computation of electron emission spectra. The activity concentrations derived from the three methods were found to be in good agreement and the relative standard uncertainty of the combined result was found to be 0.19%. At PTB, the combined result was used to calibrate a 4π ionization chamber for future calibrations of this isotope which is frequently used in nuclear medicine. In addition, activity standardizations were combined with gamma-ray spectrometry to determine photon emission probabilities. To this end, the comparison solution as well as another (177)Lu solution was used. The results are in good agreement with previous measurements at PTB but show a considerable discrepancy to recently published values from Deepa et al. (2011). The decay curve of a third solution was followed by liquid scintillation counting for about 66 days to determine the half-life of (177)Lu, which was found to be T(1/2)=6.639(9) d., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published

2012

6. Comparison between two absolute methods used for 177Lu activity measurements and its standardization.

Author

Capogni M, Cozzella ML, De Felice P, and Fazio A

Subjects

Half-Life, Internationality, Radiation Dosage, Reference Standards, Reference Values, Lutetium analysis, Lutetium standards, Radioisotopes analysis, Radioisotopes standards, Radiometry standards

Abstract

A (177)Lu primary standard was developed at the ENEA-INMRI in the frame of an international comparison organized by BIPM and piloted by NIST (USA). The CIEMAT/NIST method with (3)H standard source as tracer was used for standardizing a solution of (177)Lu. The activity value was compared also with the measurements of the same mother solution carried out by the 4πγ integral counting method. Particular efforts were made to identify and quantify the long-lived (177m)Lu impurity in the mother solution. The results obtained by the two methods are in good agreement within their standard uncertainties. The arithmetic mean of the two values is in good agreement with the Comparison Reference Value (CRV). By the new primary standard two well-type ionization chambers (ICs), one fixed and the other one portable, were calibrated with an uncertainty lower than 2%. These ICs are used for routinely applications in the activity measurements of short-lived radionuclides particularly useful for medical applications., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published

2012

7. Standardization and measurement of gamma-ray probability per decay of 177Lu.

Author

Dias MS, Silva FF, and Koskinas MF

Subjects

Methods, Probability, Radiopharmaceuticals standards, Reference Standards, Gamma Rays, Lutetium analysis, Lutetium standards

Abstract

The procedure followed by the Nuclear Metrology Laboratory (LMN), at the Nuclear and Energy Research Institute (IPEN), for the primary standardization of (177)Lu is described. This radionuclide is widely used in radiopharmacy due to its convenient half-life and emitted beta ray energies. The (177)Lu solution was supplied during an international comparison sponsored by BIPM in 2009 and the primary standardization has been accomplished by the 4pibeta-gamma coincidence method using a proportional counter in 4pi geometry coupled with two NaI(Tl) scintillation counters. The beta efficiency was varied by placing Collodion and aluminum absorbers over and under the radioactive source. The (177)Lu calibrated sources were also measured in a previously calibrated HPGe spectrometer, in order to obtain the emission probability per decay for the selected gamma-ray transitions. The experimental extrapolation curves were also compared with Monte Carlo simulations by means of code ESQUEMA developed at the LMN., (Copyright 2009 Elsevier Ltd. All rights reserved.)

Published

2010

8. Activity measurement of a 176Lu sample using coincidence peaks and Monte Carlo simulations.

Author

Jutier C and Le Petit G

Subjects

Algorithms, Calibration standards, Computer Simulation, Guidelines as Topic, Half-Life, Models, Chemical, Models, Statistical, Radiation Dosage, Radiometry methods, Reference Standards, Reference Values, Reproducibility of Results, Sensitivity and Specificity, Spectrometry, Gamma instrumentation, Spectrometry, Gamma methods, Spectrometry, Gamma standards, Lutetium analysis, Lutetium standards, Monte Carlo Method, Radioisotopes analysis, Radioisotopes standards, Radiometry instrumentation, Radiometry standards

Abstract

We present the results of the activity measurement of a sample of the rare isotope 176Lu, obtained by gamma-ray spectrometry through the use of 22 peaks in an energy spectrum acquired with a 300 cc well-type HPGe detector located in the Modane underground facility below the French Alps. Of the above peaks, 17 are coincidence peaks between two or three gamma-rays or X-rays. True coincidence summing corrections were made using our Coincal code. Monte Carlo simulations were carried out for calibration purposes.

Published

2006