Evaluation of the effectiveness of X-ray protective aprons in experimental and practical fields

Mori, Hiroshige; Koshida, Kichiro; Ishigamori, Osamu; Matsubara, Kosuke

doi:10.1007/s12194-013-0246-x

Cited by 43 publications

(19 citation statements)

References 17 publications

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“…5 ). Mori and McCaffrey 32 , 33 show that this difference in the mean energy can lead to a 12% higher X-ray transmission rate of protective aprons. Figure 5 was of particular interest when we presented the results to the staff and raised questions.…”

Section: Discussionmentioning

confidence: 99%

Characterisation and mapping of scattered radiation fields in interventional radiology theatres

Nowak

Carbonez

Krauß

et al. 2020

Sci Rep

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We used the Timepix3 hybrid pixel detector technology in order to determine the exposure of medical personnel to ionizing radiation in an interventional radiology room. We measured the energy spectra of the scattered radiation generated by the patient during X-ray image-guided interventional procedures. We performed measurements at different positions and heights within the theatre. We first observed a difference in fluence for each staff member. As expected, we found that the person closest to the X-ray tube is the most exposed while the least exposed staff member is positioned at the patient’s feet. Additionally, we observed a shift in energy from head to toe for practitioners, clearly indicating a non-homogenous energy exposure. The photon counting Timepix3 detector provides a new tool for radiation field characterisation that is easier-to-use and more compact than conventional X-ray spectrometers. The spectral information is particularly valuable for optimising the use of radiation protection gear and improving dosimetry surveillance programs. We also found the device very useful for training purposes to provide awareness and understanding about radiation protection principles among interventional radiology staff.

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Section: Discussionmentioning

confidence: 99%

Characterisation and mapping of scattered radiation fields in interventional radiology theatres

Nowak

Carbonez

Krauß

et al. 2020

Sci Rep

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“…One lead, and two lead-free aprons were tested for x-ray absorption ability in both the primary and scattered radiation fields. The method for the measurements performed in this study (with and without the aprons) is based on methods described in previous studies 5, [14][15][16] .…”

Section: Methodsmentioning

confidence: 99%

“…Prior to data collection, variability of the dose measurement for the selected tube voltages and a variation coefficient for primary radiation field (2.8%) and scatter radiation field (3.0%) was determined 15,18 .…”

Section: Measurements In the Primary Radiation Fieldmentioning

confidence: 99%

Are Antimony-Bismuth Aprons as Efficient as Lead Rubber Aprons in Providing Shielding against Scattered Radiation?

Johansen

Hauge

Hogg

et al. 2018

Journal of Medical Imaging and Radiation Sciences

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Aim: To compare the absorption ability of two lead-free aprons with a lead apron. Method: Measure and compare the absorption ability of 3 aprons; OpaqFu bilayer apron containing bismuth and antimony, NoLead one layer apron containing antimony, and a lead apron. The measurements were repeated with and without each of the aprons present in both primary and scattered beams. The selected tube voltages were between 60 and 113 kVp with constant mAs, a fixed field size and fixed source to object distance. Results: No significant difference in absorption ability of the two lead-free aprons compared to the lead apron were observed when the dose was measured in the primary beam. When measurements were performed in the scatter radiation field, the absorption ability of the OpaqFu apron was 1.3 times higher than NoLead apron and nearly equal to the absorption ability of the lead apron. An increase in the difference between the OpaqFu and NoLead aprons was observed for the tube energies higher than 100 kVp in favor of OpaqFu apron. Conclusion: It is safe to use the lead free aprons that were tested in this study in a clinical environment for the tube energy range of 60-113 kVp.

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“…Therefore, there were remarkable studies to get lead-free materials for radiation shielding applications. Tungsten, bismuth, antimony, iron and barium was among the candidate materials for radiation shielding instead of lead [4][5][6][7][8][9][10][11][12][13][14][15]. On the other hand, some of the alternative materials have more expensive production cots whereas some of them have bigger lead equivalent thickness and weight.…”

Section: Introductionmentioning

confidence: 99%

Cs-137 Gamma Ray Attenuation Properties of Flexible Silicone Rubber Materials

Büyük¹

2019

European Journal of Science and Technology

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In this study, pure silicone rubber and iron ore concentrate added silicone rubber materials were performed against Cs-137 gamma source. Cs-137 is accepted intermediate energy level gamma source in nuclear technology because of its energy peak at 0.662 MeV. Up to 67 wt. % iron ore concentrate added into silicone rubber materials were used in the experiments. Linear attenuation curves were carried out for the studied samples against Cs-137 gamma energy. Increasing iron ore ratio in the materials caused the higher radiation shielding performance for Cs-137 gamma energy. In addition, increasing iron ore ratio decrease the total volume air bubbles in the samples. Decreasing air bubbles in the samples has contributed to gamma ray shielding. 0.5 mmPbE and 1 mmPbE Lead equivalent (PbE) values were determined for the samples. 0.5mmPbE standard has been provided by using 2.83 mm thick of 67 wt. % iron ore concentrate imbedded silicone rubber at 0.662 MeV gamma energy. In conclusion, iron ore concentrate imbedded silicone rubber materials are among the promising economic radiation shielding materials which could be alternative to lead.

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Evaluation of the effectiveness of X-ray protective aprons in experimental and practical fields

Cited by 43 publications

References 17 publications

Characterisation and mapping of scattered radiation fields in interventional radiology theatres

Characterisation and mapping of scattered radiation fields in interventional radiology theatres

Are Antimony-Bismuth Aprons as Efficient as Lead Rubber Aprons in Providing Shielding against Scattered Radiation?

Cs-137 Gamma Ray Attenuation Properties of Flexible Silicone Rubber Materials

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