| Literature DB >> 32250758 |
M Teresa Durán1, Frédéric Juget2, Youcef Nedjadi2, François Bochud2, Pascal V Grundler3, Nadezda Gracheva3, Cristina Müller3, Zeynep Talip3, Nicholas P van der Meulen4, Claude Bailat2.
Abstract
The radiolanthanide 161Tb is being studied as an alternative to 177Lu for targeted radionuclide tumor therapy. Both β--particle emitters show similar chemical behavior and decay characteristics, but 161Tb delivers additional conversion and Auger electron emissions that may enhance the therapeutic efficacy. In this study, the half-life of 161Tb was determined by a combination of three independent measurement systems: reference ionization chamber (CIR, chambre d'ionization de référence), portable ionization chamber (TCIR) and a CeBr3 γ-emission detector with digital electronics. The half-life determined for 161Tb is 6.953(2) days, showing a significant improvement in the uncertainty, which is one order of magnitude lower, with a deviation of 0.91% from the last nuclear data reference value. The previous large uncertainty of the half-life had a direct impact on activity measurements. Now it is no more an obstacle to a primary standardization.Entities:
Keywords: (161)Tb; Digital electronics; Half-life; Ionization chamber; Standardization
Year: 2020 PMID: 32250758 DOI: 10.1016/j.apradiso.2020.109085
Source DB: PubMed Journal: Appl Radiat Isot ISSN: 0969-8043 Impact factor: 1.513