Literature DB >> 36214932

Correction to: Quantitative SPECT/CT imaging of lead-212: a phantom study.

Monika Kvassheim^1,2, Mona-Elisabeth R Revheim^3,4, Caroline Stokke^5,6.

Abstract

Entities: Chemical

Year: 2022 PMID： 36214932 PMCID： PMC9550937 DOI： 10.1186/s40658-022-00499-3

Source DB: PubMed Journal: EJNMMI Phys ISSN： 2197-7364

× No keyword cloud information.

Correction to: EJNMMI Physics 9, 52 (2022) 10.1186/s40658-022-00481-z

Following publication of the original article [1], an error in Fig. 1 was reported by the authors. In the top blue box, the intensity of the 87.1 keV X-ray was quoted as 1.2%, but it should be 2.0%. The updated figure is provided in this correction article.

Fig. 1

Decay scheme of 212Pb. The mean alpha and beta energies are included. The relevant photons emitted and their energies are added to the transition. Photons with emission probabilities smaller than 1% per 212Pb decay or with energies below 70 keV are not included. The data are taken from ICRP 107 [2]

The authors would also like to specify that a scatter filter of 12 mm was used for all the SPECT images analysed. The ‘no filter’ results refer to images where no post-filter was applied. The original article [1] has been updated. Decay scheme of 212Pb. The mean alpha and beta energies are included. The relevant photons emitted and their energies are added to the transition. Photons with emission probabilities smaller than 1% per 212Pb decay or with energies below 70 keV are not included. The data are taken from ICRP 107 [2]

2 in total

1. ICRP Publication 107. Nuclear decay data for dosimetric calculations.

Authors: K Eckerman; A Endo
Journal: Ann ICRP Date: 2008

2. Quantitative SPECT/CT imaging of lead-212: a phantom study.

Authors: Monika Kvassheim; Mona-Elisabeth R Revheim; Caroline Stokke
Journal: EJNMMI Phys Date: 2022-08-04

2 in total