Feasibility of the \(\beta^-\) Radio-Guided Surgery with a Variety of Radio-Nuclides of Interest to Nuclear Medicine
The \(\beta^-\) based radio-guided surgery overcomes the corresponding \(\gamma\) technique in case the background from healthy tissues is relevant. It can be used only in case a radio-tracer marked with \(^{90}\)Y is available since the current probe prototype was optimized for the emission spectru...
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| creator | Mancini-Terracciano, Carlo Donnarumma, Raffaella Bencivenga, Gaia Bocci, Valerio Cartoni, Antonella Collamati, Francesco Fratoddi, Ilaria Giordano, Alessandro Indovina, Luca Marafini, Michela Morganti, Silvio Rotili, Dante Russomando, Andrea Scotognella, Teresa Elena Solfaroli Camillocci Toppi, Marco Traini, Giacomo Venditti, Iole Faccini, Riccardo |
| description | The \(\beta^-\) based radio-guided surgery overcomes the corresponding \(\gamma\) technique in case the background from healthy tissues is relevant. It can be used only in case a radio-tracer marked with \(^{90}\)Y is available since the current probe prototype was optimized for the emission spectrum of this radio-nuclide. Here we study, with a set of laboratory tests and simulations, the prototype capability in case a different radio-nuclide is chosen among those used in nuclear medicine. As a result we estimate the probe efficiency on electrons and photons as a function of energy and we evaluate the feasibility of a radio-guided surgery exploiting the selected radio-nuclides. We conclude that requiring a 0.1~ml residue to be detected within 1~s by administering 3~MBq/Kg of radio-isotope, the current probe prototype would yield a significant signal in a vast range of values of SUV and TNR in case \(^{31}\)Si,\(^{32}\)P, \(^{97}\)Zr, and \(^{188}\)Re are used. Conversely, a tuning of the detector would be needed to efficiency use \(^{83}\)Br, \(^{133}\)I, and \(^{153}\)Sm, although they could already be used in case of high SUV or TNR values. Finally, \(^{18}\)F,\(^{67}\)Cu, \(^{131}\)I, and \(^{177}\)Lu are not useable for radio-guided surgery with the current probe design. |
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It can be used only in case a radio-tracer marked with \(^{90}\)Y is available since the current probe prototype was optimized for the emission spectrum of this radio-nuclide. Here we study, with a set of laboratory tests and simulations, the prototype capability in case a different radio-nuclide is chosen among those used in nuclear medicine. As a result we estimate the probe efficiency on electrons and photons as a function of energy and we evaluate the feasibility of a radio-guided surgery exploiting the selected radio-nuclides. We conclude that requiring a 0.1~ml residue to be detected within 1~s by administering 3~MBq/Kg of radio-isotope, the current probe prototype would yield a significant signal in a vast range of values of SUV and TNR in case \(^{31}\)Si,\(^{32}\)P, \(^{97}\)Zr, and \(^{188}\)Re are used. Conversely, a tuning of the detector would be needed to efficiency use \(^{83}\)Br, \(^{133}\)I, and \(^{153}\)Sm, although they could already be used in case of high SUV or TNR values. Finally, \(^{18}\)F,\(^{67}\)Cu, \(^{131}\)I, and \(^{177}\)Lu are not useable for radio-guided surgery with the current probe design.</description><identifier>EISSN: 2331-8422</identifier><language>eng</language><publisher>Ithaca: Cornell University Library, arXiv.org</publisher><subject>Emission analysis ; Energy conversion efficiency ; Feasibility studies ; Laboratory tests ; Nuclear medicine ; Nuclides ; Photons ; Radio ; Sport utility vehicles ; Surgery ; Zirconium</subject><ispartof>arXiv.org, 2016-10</ispartof><rights>2016. This work is published under http://arxiv.org/licenses/nonexclusive-distrib/1.0/ (the “License”). 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| subjects | Emission analysis Energy conversion efficiency Feasibility studies Laboratory tests Nuclear medicine Nuclides Photons Radio Sport utility vehicles Surgery Zirconium |
| title | Feasibility of the \(\beta^-\) Radio-Guided Surgery with a Variety of Radio-Nuclides of Interest to Nuclear Medicine |
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