O2 Muu julkaisu
Calibration And Operational Data For A Compact Photodiode Detector Useful For Monitoring The Location Of Moving Sources Of Positron Emitting Radioisotopes
Tekijät: Marsland MG, Dehnel MP, Johansson S, Rajander J, Solin O, Theroux J, Stewart TM, Christensen T, Hollinger C
Toimittaja: xxx
Julkaisuvuosi: 2013
Journal: AIP Conference Proceedings
Kokoomateoksen nimi: Aip Conference Proceedings
Tietokannassa oleva lehden nimi: APPLICATION OF ACCELERATORS IN RESEARCH AND INDUSTRY
Lehden akronyymi: AIP CONF PROC
Vuosikerta: 1525
Aloitussivu: 337
Lopetussivu: 339
Sivujen määrä: 3
eISBN: 1551-7616
ISSN: 0094-243X
DOI: https://doi.org/10.1063/1.4802345
Tiivistelmä
D-Pace has developed a compact cost-effective gamma detector system based on technology licensed from TRIUMF [1]. These photodiode detectors are convenient for detecting the presence of positron emitting radioisotopes, particularly for the case of transport of radioisotopes from a PET cyclotron to hotlab, or from one location to another in an automated radiochemistry processing unit. This paper describes recent calibration experiments undertaken at the Turku PET Centre for stationary and moving sources of F18 and C11 in standard setups. The practical diagnostic utility of using several of these devices to track the transport of radioisotopes from the cyclotron to hotlab is illustrated. For example, such a detector system provides: a semi-quantitative indication of total activity, speed of transport, location of any activity lost en route and effectiveness of follow-up system flushes, a means of identifying bolus break-up, feedback useful for deciding when to change out tubing.
D-Pace has developed a compact cost-effective gamma detector system based on technology licensed from TRIUMF [1]. These photodiode detectors are convenient for detecting the presence of positron emitting radioisotopes, particularly for the case of transport of radioisotopes from a PET cyclotron to hotlab, or from one location to another in an automated radiochemistry processing unit. This paper describes recent calibration experiments undertaken at the Turku PET Centre for stationary and moving sources of F18 and C11 in standard setups. The practical diagnostic utility of using several of these devices to track the transport of radioisotopes from the cyclotron to hotlab is illustrated. For example, such a detector system provides: a semi-quantitative indication of total activity, speed of transport, location of any activity lost en route and effectiveness of follow-up system flushes, a means of identifying bolus break-up, feedback useful for deciding when to change out tubing.
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