Radio-Guided Surgery enables the surgeon to identify tumor residuals in real time, with millimetric resolution. This technique takes advantage of a radiopharmaceutical as tracer and a probe as detector. The employment of β - emitters as tracers, instead of γ or β + , reduces the background from the healthy tissues and the medical exposition risk. The performances of a CMOS sensor, the MT9V011, originally designed for visible light imaging, as β - radiation detector have been investigated. In particular, we have studied the impact of an infra-red filter placed in front of the sensor in the existing commercial devices, and we have determined the sensitivity and spatial resolution of the sensor, in the presence of a localized ionization source of variable size. Finally, by evaluating the sensitivity to clinical-like activities and geometries we conclude that even with the small size of the sensor, that can potentially be increased, the acquisition time required to discriminate a tumor residual from healthy tissues is of a few seconds for transverse dimensions greater than 3 mm.
Use of a CMOS image sensor for beta-emitting radionuclide measurements / Solestizi, L. Alunni; Biasini, M.; Bocci, V.; Campeggi, C.; Capotosti, A.; Collamati, F.; Faccini, R.; Fresch, P.; Giuliano, L.; Kanxheri, K.; Terracciano, C. Mancini; Mantini, S.; Marafini, M.; Meddi, F.; Morganti, S.; Mirabelli, Riccardo; Camillocci, E. Solfaroli; Traini, G.; Servoli, L.. - In: JOURNAL OF INSTRUMENTATION. - ISSN 1748-0221. - 13:7(2018). [10.1088/1748-0221/13/07/P07003]
Use of a CMOS image sensor for beta-emitting radionuclide measurements
Collamati, F.;Faccini, R.;Giuliano, L.;Terracciano, C. Mancini;Meddi, F.;MIRABELLI, RICCARDO;Camillocci, E. Solfaroli;Traini, G.;
2018
Abstract
Radio-Guided Surgery enables the surgeon to identify tumor residuals in real time, with millimetric resolution. This technique takes advantage of a radiopharmaceutical as tracer and a probe as detector. The employment of β - emitters as tracers, instead of γ or β + , reduces the background from the healthy tissues and the medical exposition risk. The performances of a CMOS sensor, the MT9V011, originally designed for visible light imaging, as β - radiation detector have been investigated. In particular, we have studied the impact of an infra-red filter placed in front of the sensor in the existing commercial devices, and we have determined the sensitivity and spatial resolution of the sensor, in the presence of a localized ionization source of variable size. Finally, by evaluating the sensitivity to clinical-like activities and geometries we conclude that even with the small size of the sensor, that can potentially be increased, the acquisition time required to discriminate a tumor residual from healthy tissues is of a few seconds for transverse dimensions greater than 3 mm.File | Dimensione | Formato | |
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