Samples were irradiated by biodosimetry laboratories at Health Canada (HC), Canadian Nuclear Laboratories (CNL), Public Health England (PHE), and Dalat Nuclear Research Institute (DNRI) using established protocols (International Atomic Energy Agency 2011; Oestreicher et al. 2017; Pham et al. 2019) . HC irradiated samples using 250 kVp X-rays (X-RAD-320 (Precision X-ray, North Branford, CT)) at a dose rate of 0.8 Gy/min, CNL used a 137 Cs GammaCell40 (Atomic Energy of Canada Ltd, Ottawa, ON) at a dose rate of ~4.5 rad/sec, DNRI used 200 kVp X-rays (Radioflex-200EGM (Rigaku, Japan)) at a dose rate of 0.497 Gy/min. Samples obtained from PHE were irradiated ex vivo in a water phantom at 37 °C to 60 Co gamma rays, with a dose rate of 0.27 Gy/min, at the University of Ghent irradiation facility. Dosimetry was performed with a NE2571 Farmer ionization chamber (Thermo Electron, UK) calibrated in terms of air kerma using the IAEA TRS-277 code of practice. To simulate partial body irradiations, irradiated blood samples were mixed with sham-irradiated control blood from the same donor in a ratio of 1:1 and sent to PHE, at room temperature, for processing using standard techniques (International Atomic Energy Agency
Radioflex 200egm
Manufactured by Rigaku
Sourced in Japan
The Radioflex-200EGM is a versatile X-ray fluorescence (XRF) spectrometer designed for the analysis of a wide range of materials. This instrument is capable of providing quantitative and qualitative elemental analysis of solid, powder, and liquid samples. The Radioflex-200EGM features a high-performance X-ray source, advanced detection systems, and user-friendly software, enabling efficient and accurate data collection and analysis.
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Lab products found in correlation
2 protocols using radioflex 200egm
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Biodosimetry Protocols for Partial-Body Irradiation
2
Biodosimetry Protocols for Partial-Body Irradiation
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Samples were irradiated by biodosimetry laboratories at Health Canada (HC), Canadian Nuclear Laboratories (CNL), Public Health England (PHE), and Dalat Nuclear Research Institute (DNRI) using established protocols (International Atomic Energy Agency 2011; Oestreicher et al. 2017; Pham et al. 2019) . HC irradiated samples using 250 kVp X-rays (X-RAD-320 (Precision X-ray, North Branford, CT)) at a dose rate of 0.8 Gy/min, CNL used a 137 Cs GammaCell40 (Atomic Energy of Canada Ltd, Ottawa, ON) at a dose rate of ~4.5 rad/sec, DNRI used 200 kVp X-rays (Radioflex-200EGM (Rigaku, Japan)) at a dose rate of 0.497 Gy/min. Samples obtained from PHE were irradiated ex vivo in a water phantom at 37 °C to 60 Co gamma rays, with a dose rate of 0.27 Gy/min, at the University of Ghent irradiation facility. Dosimetry was performed with a NE2571 Farmer ionization chamber (Thermo Electron, UK) calibrated in terms of air kerma using the IAEA TRS-277 code of practice. To simulate partial body irradiations, irradiated blood samples were mixed with sham-irradiated control blood from the same donor in a ratio of 1:1 and sent to PHE, at room temperature, for processing using standard techniques (International Atomic Energy Agency
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