In the framework of the SCINTIRAD Project, Research & Development activity has been focused on the design and test of high-spatial-resolution planar scintillation cameras as gamma-ray imaging detectors. To get additional information from such planar detectors (i.e. to get information on the z-coordinate of the gamma-radiation emitter), a method to measure the detector-to-object distance has been presented [2,3]. In this work the results of radioactive hot-spot localization tests and possible biomedical applications are presented.
Radioactive hot-spot localization in biological tissues by high-spatial-resolution scintillation camera / G. Baldazzi; M. Bello; P. Boccaccio; D. Bollini; U. Mazzi; G. Moschini; A. Rosato. - In: LNL- ANNUAL REPORT. - ISSN 1828-8545. - ELETTRONICO. - 222:(2008), pp. 240-241.
Radioactive hot-spot localization in biological tissues by high-spatial-resolution scintillation camera
BALDAZZI, GIUSEPPE;BOLLINI, DANTE;
2008
Abstract
In the framework of the SCINTIRAD Project, Research & Development activity has been focused on the design and test of high-spatial-resolution planar scintillation cameras as gamma-ray imaging detectors. To get additional information from such planar detectors (i.e. to get information on the z-coordinate of the gamma-radiation emitter), a method to measure the detector-to-object distance has been presented [2,3]. In this work the results of radioactive hot-spot localization tests and possible biomedical applications are presented.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
