An intra-operative positron probe with background rejection capability for FDG-guided surgery

An intra-operative positron probe with background rejection capability for FDG-guided surgery

For radio-guided surgery on tumors using F-18-FDG, detection of annihilation gamma photons emanating from other parts of the body produces background radiation counts and limits its use in clinical situations. To overcome this limitation, we have developed an intra-operative positron probe with back...

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Bibliographic Details
Published in:Annals of nuclear medicine Vol. 19; no. 1; pp. 23 - 28
Main Authors: Yamamoto, Seiichi, Matsumoto, Keiichi, Sakamoto, Setsu, Tarutani, Kazumasa, Minato, Kotaro, Senda, Michio
Format: Journal Article
Language:English
Published: Japan Springer Nature B.V 01-02-2005
Subjects:
Background Radiation
BGO (crystal)
Diameters
Emitters
Equipment Design
Equipment Failure Analysis
Fluorine isotopes
Fluorodeoxyglucose F18 - analysis
Humans
Neoplasms - diagnostic imaging
Neoplasms - surgery
Phantoms, Imaging
Photomultiplier tubes
Photons
Point sources
Positron-Emission Tomography - instrumentation
Positron-Emission Tomography - methods
Positrons
Radiation Dosage
Radioisotopes
Radiometry - instrumentation
Radiometry - methods
Radiopharmaceuticals - analysis
Rejection
Reproducibility of Results
Scintillation counters
Sensitivity and Specificity
Sensors
Spatial discrimination
Spatial resolution
Surgery
Surgery, Computer-Assisted - instrumentation
Surgery, Computer-Assisted - methods
Transducers
Tumors
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Summary:For radio-guided surgery on tumors using F-18-FDG, detection of annihilation gamma photons emanating from other parts of the body produces background radiation counts and limits its use in clinical situations. To overcome this limitation, we have developed an intra-operative positron probe with background-rejection capability. The positron probe uses a phoswich detector composed of a plastic scintillator and a bismuth germinate (BGO). A positron from a positron emitter such as F-18 is detected by the plastic scintillator and emits annihilation photons. The BGO detects one of the annihilation photons while a photo-multiplier tube (PMT) detects scintillation photons from both scintillators. The decay time differences of these two scintillators are used to distinguish whether the event is a true event where a positron and a following annihilation photon are detected simultaneously, or a background event. In this configuration, only positrons can be selectively detected, even in an environment of high background gamma photon flux. Spatial resolution was 11-mm full width at half maximum (FWHM) 5 mm from the detector surface. Measured sensitivity for the F-18 point source was 2.6 cps/kBq 5 mm from the detector surface. The background count rate was less than 0.5 cps for a 20-cm diameter cylindrical phantom containing 37 MBq of F-18 solution measured on the phantom surface, while the positron count rate was almost linear over a range of approximately 6 kcps. These results indicate that our developed intra-operative positron probe is valuable for radio-guided surgery on tumors using F-18-FDG in a high flux of background annihilation gamma photons.
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ISSN:0914-7187
1864-6433
DOI:10.1007/BF02986331