Les accidents d'irradiation Mise en place d'une base de données “ ACCIRAD ” à l'IPSN

Chambrette, V.; Hardy, Sophie; Nénot, J.C.

doi:10.1051/radiopro:2001105

Cited by 9 publications

(2 citation statements)

References 2 publications

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“…The place where the accident occurs determines its characteristics: feedback over more than half a century shows that more than 50% of the severe accidents occurred in industrial facilities, one-fifth in the research field, one-eighth in nuclear power civilian applications, one-tenth in medicine, and one-20th in military facilities or after military tests (Chambrette et al 2001). Nevertheless, the number of victims, when considered by sector, appears to be in various proportions.…”

Section: Introductionmentioning

confidence: 99%

Radiation accidents over the last 60 years

Nénot¹

2009

J. Radiol. Prot.

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Since the end of the Second World War, industrial and medical uses of radiation have been considerably increasing. Accidental overexposures of persons, in either the occupational or public field, have caused deaths and severe injuries and complications. The rate of severe accidents seems to increase with time, especially those involving the public; in addition, accidents are often not immediately recognised, which means that the real number of events remains unknown. Human factors, as well as the lack of elementary rules in the domains of radiological safety and protection, such as inadequate training, play a major role in the occurrence of the accidents which have been reported in the industrial, medical and military arenas.

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Section: Introductionmentioning

confidence: 99%

Radiation accidents over the last 60 years

Nénot¹

2009

J. Radiol. Prot.

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“…Although the use of ionizing radiation is most often mastered and controlled, it can lead to significant overexposure in accidental or malicious situations. Several publications have listed cases of accidental overexposure (Oliveira 1987, Chambrette et al 2001, Coeytaux et al 2015, Thorne 2022) and online databases also exist, such as the Johnston archives (Johnston Archives 2022), which list the different details of radiation 2.2. Mice and experimental protocol Adult male C57BL/6JRj mice from Janvier Labs, aged 8 weeks at the beginning of the study, were used.…”

Section: Introductionmentioning

confidence: 99%

Radiological injuries under low energy x-rays in mice depending on dose and protocol: comparative characterization of lesion severity and impact of the in vivo bone response on retrospective dose estimations

Guillou,

L’Homme,

Trompier

et al. 2024

Phys. Med. Biol.

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Objective:To improve our knowledge about the biological effects of over exposures involving low-energy X-rays, we developed and characterized a preclinical mouse model allowing to mimic different lesion severity degrees induced by 80 kV X-ray depending on the dose and protocol (single or repeated exposure).Approach: Mice were locally exposed (paw) to 80 kV X-rays in a single (15, 30 or 45 Gy in Kair) or repeated exposition (2x15 or 3x15 Gy in Kair) to assess different degrees of lesion severity. Six post-irradiation euthanasia time points (0, 7, 14, 21, 42, and 84 days) were determined to follow up the evolution of lesions based on the lesion score, weighing and cutaneous blood perfusion. The bone dose was estimated at the different time points by Electron Paramagnetic Resonance (EPR) spectroscopy.Main results:The monitoring of the lesion severity allows to classify the exposure protocols according to their severity. EPR spectroscopy measurements allow to determine the bone dose on the day of irradiation which is 7 times higher than the initial dose for single protocols. However, the initial signal measured at the end of the repeated exposure was 27% lower than the signal measured for a single dose. The study of the kinetics of EPR signal showed a decrease of the EPR signal which is dependent on the exposure protocol but not on dose highlighting the impact of bone physiology on the bone dose estimation.Significance: the preclinical model developed allows to assess the impact of the dose and protocol on the lesion severity induced by low-energy X-ray. For the first time, the dynamics of free radicals have been quantified in an in vivo model, highlighting that the doses actually administered can be underestimated if samples are taken weeks or even months after exposure.

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2018

Military Nuclear Accidents

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Les accidents d'irradiation Mise en place d'une base de données “ ACCIRAD ” à l'IPSN

Cited by 9 publications

References 2 publications

Radiation accidents over the last 60 years

Radiation accidents over the last 60 years

Radiological injuries under low energy x-rays in mice depending on dose and protocol: comparative characterization of lesion severity and impact of the in vivo bone response on retrospective dose estimations

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