Literature DB >> 1461199

Radiation spectra for Auger-electron emitting radionuclides: report No. 2 of AAPM Nuclear Medicine Task Group No. 6.

R W Howell1.   

Abstract

Radiation spectra for radionuclides currently provided by the MIRD Committee and ICRP do not include the very low-energy N- and O-shell Auger electrons. These electrons, emitted in large numbers by radionuclides decaying by electron capture and/or internal conversion, are important for determining the absorbed dose in microscopic volumes. Accordingly, the present AAPM Report employs Monte Carlo computational methods to obtain a self-consistent set of complete radiation spectra for a variety of radionuclides including 55Fe, 67Ga, 99mTc, 111In, 113mIn, 115mIn, 123I, 125I, 193mPt, 195mPt, 201Tl, and 203Pb. Although the conventional spectra provided by MIRD and ICRP are adequate for most dosimetry calculations, the Auger electron spectra provided in this report are recommended for calculating the dose to target volumes < 1 microns in diameter.

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Year:  1992        PMID: 1461199     DOI: 10.1118/1.596927

Source DB:  PubMed          Journal:  Med Phys        ISSN: 0094-2405            Impact factor:   4.071


  42 in total

1.  Bystander effects caused by nonuniform distributions of DNA-incorporated (125)I.

Authors:  Roger W Howell; Anupam Bishayee
Journal:  Micron       Date:  2002       Impact factor: 2.251

2.  A model for optimizing delivery of targeted radionuclide therapies into resection cavity margins for the treatment of primary brain cancers.

Authors:  Raghu Raghavan; Roger W Howell; Michael R Zalutsky
Journal:  Biomed Phys Eng Express       Date:  2017-05-05

3.  Correlation between energy deposition and molecular damage from Auger electrons: A case study of ultra-low energy (5-18 eV) electron interactions with DNA.

Authors:  Mohammad Rezaee; Darel J Hunting; Léon Sanche
Journal:  Med Phys       Date:  2014-07       Impact factor: 4.071

4.  Monte Carlo single-cell dosimetry using Geant4-DNA: the effects of cell nucleus displacement and rotation on cellular S values.

Authors:  Ramak Salim; Payvand Taherparvar
Journal:  Radiat Environ Biophys       Date:  2019-03-29       Impact factor: 1.925

Review 5.  Auger radiation targeted into DNA: a therapy perspective.

Authors:  Franz Buchegger; Florence Perillo-Adamer; Yves M Dupertuis; Angelika Bischof Delaloye
Journal:  Eur J Nucl Med Mol Imaging       Date:  2006-08-08       Impact factor: 9.236

6.  Redefining relative biological effectiveness in the context of the EQDX formalism: implications for alpha-particle emitter therapy.

Authors:  Robert F Hobbs; Roger W Howell; Hong Song; Sébastien Baechler; George Sgouros
Journal:  Radiat Res       Date:  2014-01       Impact factor: 2.841

7.  Nanodosimetry of Auger electrons: A case study from the decay of 125I and 0-18-eV electron stopping cross sections of cytosine.

Authors:  M Michaud; M Bazin; L Sanche
Journal:  Phys Rev E Stat Nonlin Soft Matter Phys       Date:  2013-03-04

8.  Radiolabeling and in vitro evaluation of (67)Ga-NOTA-modular nanotransporter--a potential Auger electron emitting EGFR-targeted radiotherapeutic.

Authors:  Eftychia Koumarianou; Tatiana A Slastnikova; Marek Pruszynski; Andrey A Rosenkranz; Ganesan Vaidyanathan; Alexander S Sobolev; Michael R Zalutsky
Journal:  Nucl Med Biol       Date:  2014-04-02       Impact factor: 2.408

9.  Targeted Brain Tumor Radiotherapy Using an Auger Emitter.

Authors:  Giacomo Pirovano; Stephen A Jannetti; Lukas M Carter; Ahmad Sadique; Susanne Kossatz; Navjot Guru; Paula Demétrio De Souza França; Masatomo Maeda; Brian M Zeglis; Jason S Lewis; John L Humm; Thomas Reiner
Journal:  Clin Cancer Res       Date:  2020-02-17       Impact factor: 12.531

10.  In vitro proof of concept studies of radiotoxicity from Auger electron-emitter thallium-201.

Authors:  Vincenzo Abbate; Samantha Y A Terry; Katarzyna M Osytek; Philip J Blower; Ines M Costa; Gareth E Smith
Journal:  EJNMMI Res       Date:  2021-07-05       Impact factor: 3.138
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