2018
DOI: 10.1097/hp.0000000000000874
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Developments in Biodosimetry Methods for Triage With a Focus on X-band Electron Paramagnetic Resonance In Vivo Fingernail Dosimetry

Abstract: Instrumentation and application methodologies for rapidly and accurately estimating individual ionizing radiation dose are needed for on-site triage in a radiological/nuclear event. One such methodology is an in vivo X-band, electron paramagnetic resonance, physically based dosimetry method to directly measure the radiation-induced signal in fingernails. The primary components under development are key instrument features, such as resonators with unique geometries that allow for large sampling volumes but limi… Show more

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Cited by 21 publications
(13 citation statements)
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“…Compared with the study of in vivo tooth dosimetry 17,22,28 , the dose assessment precision and limit of the fingernail dosimetry might not be as good as tooth dosimetry (the standard error of prediction was approximately evaluated at 1.5 Gy for L-band spectroscopy of molar teeth) 17,18,28 . However, in vivo fingernail EPR dosimetry has some advantages in the potential for providing information and multiple sites (hands and feet) and future instrumental developments could achieve very competitive convenience for positioning, and speed of measurement 31 .…”
Section: Discussionmentioning
confidence: 99%
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“…Compared with the study of in vivo tooth dosimetry 17,22,28 , the dose assessment precision and limit of the fingernail dosimetry might not be as good as tooth dosimetry (the standard error of prediction was approximately evaluated at 1.5 Gy for L-band spectroscopy of molar teeth) 17,18,28 . However, in vivo fingernail EPR dosimetry has some advantages in the potential for providing information and multiple sites (hands and feet) and future instrumental developments could achieve very competitive convenience for positioning, and speed of measurement 31 .…”
Section: Discussionmentioning
confidence: 99%
“…The comprehensive dosimetric characteristics of in vivo fingernail EPR measurement still remain a series of further studies in the future work. The strong sensitivity of the radiation-induced signals in fingernails to humidity, especially to the direct contact with water, could result in the large deviation between nominal and EPR doses [29][30][31][32] . This may lead to inapplicability of EPR fingernail dosimetry in some circumstances.…”
Section: Discussionmentioning
confidence: 99%
“…Therefore, a biodosimetric assay that could provide this information (regarding IR-dose distribution) would be especially valuable for the rational use and administration of given countermeasures aimed at specific organ systems. In part, this may already be possible with some of the currently available biodosimetric tools; e.g., in vivo EPR dosimetry and the use of nail and tooth samples to assess doses at different regions of the body, or perhaps employing quantitative, real-time molecular assessments of organ-specific genomic or proteomic changes induced by IR exposures [96,99].…”
Section: Role Of Biodosimetry For the Use Of Radiation Countermeasuresmentioning
confidence: 99%
“…Focusing on the unmet needs related to basic triage procedures and for subsequent application of given medical countermeasures, the in vivo nail dosimetry (as opposed to either in vitro or in vivo tooth/enamel-based dosimetry) approach seems most valuable [96,99], and therefore, we describe it here in more detail, especially as it relates to the potential of the technology to guide the application of any/all post-IR exposure medical procedures. However, as promising as in vivo tooth dosimetry might be, especially for the initial triage for large-scale radiation events, the dosimetric technique is limited, because it provides a dose measurement of a single site on the body (i.e., at the mouth/head).…”
Section: Electron Paramagnetic Resonance (Epr) Dosimetrymentioning
confidence: 99%
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