Emission of β+ Particles Via Internal Pair Production in the 0+ – 0+ Transition of 90Zr: Historical Background and Current Applications in Nuclear Medicine Imaging
90Y is traditionally considered as a pure β– emitter. However, the decay of this radionuclide has a minor branch to the 0+ first excited state of 90Zr at 1.76 MeV, that is followed by a β+/β– emission. This internal pair production has been largely studied in the past because it is generated by a ra...
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2013-03-01
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| Online Access: | http://www.mdpi.com/2218-2004/1/1/2 |
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doaj-de9f0ec6356b45ec9ae4680eb049cc982020-11-24T23:49:32ZengMDPI AGAtoms2218-20042013-03-011121210.3390/atoms1010002atoms1010002Emission of β+ Particles Via Internal Pair Production in the 0+ – 0+ Transition of 90Zr: Historical Background and Current Applications in Nuclear Medicine ImagingMarco D'Arienzo0Istituto Nazionale di Metrologia delle Radiazioni Ionizzanti, ENEA, Centro Ricerche Casaccia, Rome, Italy90Y is traditionally considered as a pure β– emitter. However, the decay of this radionuclide has a minor branch to the 0+ first excited state of 90Zr at 1.76 MeV, that is followed by a β+/β– emission. This internal pair production has been largely studied in the past because it is generated by a rare electric monopole transition (E0) between the states 0+/0+ of 90Zr. The positronic emission has been recently exploited for nuclear medicine applications, i.e. positron emission tomography (PET) acquisitions of 90Y-labelled radiopharmaceuticals, widely used as therapeutic agents in internal radiation therapy. To date, this topic is gaining increasing interest in the radiation dosimetry community, as the possibility of detecting β+ emissions from 90Y by PET scanners may pave the way for an accurate patient-specific dosimetry. This could lead to an explosion in scientific production in this field. In the present paper the historical background behind the study of the internal pair production of the 0+/0+ transition of 90Zr is presented along with most up to date measured branch ratio values. An overview of most recent studies that exploit β+ particles emitted from 90Y for PET acquisitions is also provided.http://www.mdpi.com/2218-2004/1/1/2Internal pair productionmonopole transition90Y decaypositron emission tomography |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Marco D'Arienzo |
| spellingShingle |
Marco D'Arienzo Emission of β+ Particles Via Internal Pair Production in the 0+ – 0+ Transition of 90Zr: Historical Background and Current Applications in Nuclear Medicine Imaging Atoms Internal pair production monopole transition 90Y decay positron emission tomography |
| author_facet |
Marco D'Arienzo |
| author_sort |
Marco D'Arienzo |
| title |
Emission of β+ Particles Via Internal Pair Production in the 0+ – 0+ Transition of 90Zr: Historical Background and Current Applications in Nuclear Medicine Imaging |
| title_short |
Emission of β+ Particles Via Internal Pair Production in the 0+ – 0+ Transition of 90Zr: Historical Background and Current Applications in Nuclear Medicine Imaging |
| title_full |
Emission of β+ Particles Via Internal Pair Production in the 0+ – 0+ Transition of 90Zr: Historical Background and Current Applications in Nuclear Medicine Imaging |
| title_fullStr |
Emission of β+ Particles Via Internal Pair Production in the 0+ – 0+ Transition of 90Zr: Historical Background and Current Applications in Nuclear Medicine Imaging |
| title_full_unstemmed |
Emission of β+ Particles Via Internal Pair Production in the 0+ – 0+ Transition of 90Zr: Historical Background and Current Applications in Nuclear Medicine Imaging |
| title_sort |
emission of β+ particles via internal pair production in the 0+ – 0+ transition of 90zr: historical background and current applications in nuclear medicine imaging |
| publisher |
MDPI AG |
| series |
Atoms |
| issn |
2218-2004 |
| publishDate |
2013-03-01 |
| description |
90Y is traditionally considered as a pure β– emitter. However, the decay of this radionuclide has a minor branch to the 0+ first excited state of 90Zr at 1.76 MeV, that is followed by a β+/β– emission. This internal pair production has been largely studied in the past because it is generated by a rare electric monopole transition (E0) between the states 0+/0+ of 90Zr. The positronic emission has been recently exploited for nuclear medicine applications, i.e. positron emission tomography (PET) acquisitions of 90Y-labelled radiopharmaceuticals, widely used as therapeutic agents in internal radiation therapy. To date, this topic is gaining increasing interest in the radiation dosimetry community, as the possibility of detecting β+ emissions from 90Y by PET scanners may pave the way for an accurate patient-specific dosimetry. This could lead to an explosion in scientific production in this field. In the present paper the historical background behind the study of the internal pair production of the 0+/0+ transition of 90Zr is presented along with most up to date measured branch ratio values. An overview of most recent studies that exploit β+ particles emitted from 90Y for PET acquisitions is also provided. |
| topic |
Internal pair production monopole transition 90Y decay positron emission tomography |
| url |
http://www.mdpi.com/2218-2004/1/1/2 |
| work_keys_str_mv |
AT marcodarienzo emissionofbparticlesviainternalpairproductioninthe00transitionof90zrhistoricalbackgroundandcurrentapplicationsinnuclearmedicineimaging |
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