2016
DOI: 10.1080/09553002.2016.1221545
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Overview of physical dosimetry methods for triage application integrated in the new European network RENEB

Abstract: Physically-based dosimetry techniques present high capacity, new possibilities for accident dosimetry, especially in the case of large-scale events. Some of the techniques applied can be considered as operational (e.g. OSL on Surface Mounting Devices [SMD]) and provide a large increase of measurement capacity for existing networks. Other techniques and devices currently undergoing validation or development in Europe could lead to considerable increases in the capacity of the RENEB accident dosimetry network.

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Cited by 35 publications
(23 citation statements)
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“…No systematic difference in the quality of results could be seen for laboratories that participated in the training and laboratories that received detailed written instructions on sample preparation and measurement only. This is different to the results obtained for the intercomparison using OSL on surface mount resistors in mobile phones, where misidentification of the right component was the main source of error for untrained participants (Bassinet et al 2014;Trompier et al 2016). In a few cases (four out of 30) a systematic overestimation of the given dose was observed.…”
Section: The Aims Of This Inter-comparison Werecontrasting
confidence: 48%
“…No systematic difference in the quality of results could be seen for laboratories that participated in the training and laboratories that received detailed written instructions on sample preparation and measurement only. This is different to the results obtained for the intercomparison using OSL on surface mount resistors in mobile phones, where misidentification of the right component was the main source of error for untrained participants (Bassinet et al 2014;Trompier et al 2016). In a few cases (four out of 30) a systematic overestimation of the given dose was observed.…”
Section: The Aims Of This Inter-comparison Werecontrasting
confidence: 48%
“…A first inter-comparison on biological and physical dosimetry allowed identification of laboratories requiring training on specific assays Oestreicher et al 2016;Trompier et al 2016a). Furthermore, some laboratories required training on assay(s) that they do not master.…”
Section: Education and Trainingmentioning
confidence: 99%
“…Regarding the EPR assay, the second inter-laboratory comparison has consisted of re-evaluating samples of the first inter-comparison but with alternative approaches. A protocol improvement is still foreseen but more investigations are needed to fully establish the EPR technique on the glass touch screen of a mobile phone (Trompier et al 2016a).…”
Section: Education and Trainingmentioning
confidence: 99%
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“…While the first of the exercises was restricted to the network partners, the second intercomparison was open also for potential new members and with regard to the dicentric assay and micronucleus assay also for networks outside Europe. Details and outcome of the intercomparisons are shown in independent articles, included in this special issue, for the dicentric assay , the FISH assay , the micronucleus assay (Depuydt et al 2016), PCC assay , the gamma H2AX assay (Barnard et al 2014;Moquet et al 2016), and for physical dosimetry methods (Trompier et al 2016b), as well as in Fattibene et al (2014) and Bassinet et al (2014).…”
Section: Intercomparisonsmentioning
confidence: 99%