Attenuation of X and Gamma Rays in Personal Radiation Shielding Protective Clothing

Kozlovska, Michaela; Černý, Radek; Otáhal, Petr

doi:10.1097/hp.0000000000000361

Cited by 13 publications

(16 citation statements)

References 2 publications

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“…Other quantities, e.g., the effective dose decrease in the samples, can also be simulated via this model. Figure 8c supported by data in Table S3 presents the mass attenuation coefficients as determined experimentally from the spectra of the nanotextile samples and as compared with the values for a commercially manufactured product (according to data from ref 35). The spectra of the PVB + Bi 2 O 3 (1:19) sample was measured supplemented with a nanomaterial covering layer aimed at achieving a similar composition and mass density (2170 g/m 2 ) to the commercially manufactured DEMRON 2 Ply Vest (ca.…”

Section: ■ Results and Discussionmentioning

confidence: 92%

Electrospun Polyvinyl Butyral Nanofibers Loaded with Bismuth Oxide Nanoparticles for X-ray Shielding

Košťáková

Kozlovska

Benediková

et al. 2023

ACS Appl. Nano Mater.

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The combination of electrospun nanofibers and nanoparticles is opening up potential in the field of nanocomposite materials. This paper presents a composite electrospun nanofibrous material for X-ray shielding purposes consisting of a polyvinyl butyral polymer matrix and bismuth oxide nanoparticles. The organic−inorganic composite nanofibers considered in this paper, produced via the ex situ approach, attained a high content of nanoparticles of up to 95 wt %. The high content of nanoparticles inside the composite nanofibers was acquired via the application of the highly productive needleless electrospinning method. The resulting material is flexible and has a high drape and good air and steam permeability. The content of particles in the nanofibers was proved by the thermogravimetric analysis, and the homogeneous distribution of particles inside the nanofibers and within a whole nanofibrous layer was demonstrated via energy dispersive spectroscopy-scanning electron microscopy. In addition, samples of the composite electrospun nanofibers were tested for cytotoxicity, which revealed that the nanofibers were cytocompatible in all concentrations. The radiation attenuation properties of the samples were investigated via X-ray and γ-ray spectral measurements at a narrow beam geometry. The principal experimentally determined quantity for the tested samples was X-and γ-ray attenuation for the considerable energies of the spectra. The mass attenuation coefficients were calculated for the final composite electrospun material, which was supplemented by a composite nanofibrous material covering layer. With respect to photon energies higher than 40 keV, the attenuation coefficients were observed to be comparable with a commercially produced anti-radiation vest, which had a similar mass density as both the final composite electrospun material and the covering layer. Monte Carlo (MC) simulations in the FLUKA code were conducted to determine the photon attenuation for the respective energies in the tested samples. The results were compared to those determined experimentally, and the MC model was verified.

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Section: ■ Results and Discussionmentioning

confidence: 92%

Electrospun Polyvinyl Butyral Nanofibers Loaded with Bismuth Oxide Nanoparticles for X-ray Shielding

Košťáková

Kozlovska

Benediková

et al. 2023

ACS Appl. Nano Mater.

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“…PPEs for radiation shielding have been developed for both specialized and civil use. For textiles without specific anti-radiation design, a high textile thickness and compactness is needed for complete radiation blockage, which dramatically increases the discomfort for the wearer [ 82 ] . Therefore, novel materials for absorbing the electromagnetic radiation, especially UV, could be introduced for building the anti-radiation PPEs.…”

Section: Functional Materials and Structural Design For Improved Ppe Performancementioning

confidence: 99%

Materials in advanced design of personal protective equipment: a review

Shi

et al. 2021

Materials Today Advances

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The outbreak of Covid-19 pandemic has aroused tremendous attention towards personal protective equipment (PPE) in both scientific research and industrial manufacture. Despite decades of development in PPE design and fabrication, there’s still much room for further optimization, in terms of both protection performance and wear comfort. Interdisciplinary efforts have been devoted in this research field in recent years. Significantly, the innovation of materials, which brings about improved performance and versatile new functions for PPEs, has been widely adopted in PPE design. In this minireview, recent progress in the development of novel materials and structural designs for PPE application are presented in detail, with the introduction of various material-based strategies for different PPE type, as well as the examples which applies auxiliary components into face masks to enrich the functionalities and improve the personal feelings in pandemic period.

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“…Beta minus radiation consists of electrons, while beta plus radiation consists of positrons, which are the antimatter counterpart of the electron [30]. Both X and gamma rays are characterized by high penetration and a plate made of lead is needed as an effective shield against them [31]. UV radiation capable of causing ionization has a wavelength in the range of 100-280 nm (UVC) and is absorbed by the atmosphere [28,32].…”

Section: Ionizing Radiation As a Source Of Reactive Oxygen Speciesmentioning

confidence: 99%

Ionizing Radiation as a Source of Oxidative Stress—The Protective Role of Melatonin and Vitamin D

Nuszkiewicz

Woźniak

Szewczyk-Golec

2020

IJMS

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Ionizing radiation (IR) has found widespread application in modern medicine, including medical imaging and radiotherapy. As a result, both patients and healthcare professionals are exposed to various IR doses. To minimize the negative side effects of radiation associated with oxidative imbalance, antioxidant therapy has been considered. In this review, studies on the effects of melatonin and vitamin D on radiation-induced oxidative stress are discussed. According to the research data, both substances meet the conditions for use as agents that protect humans against IR-induced tissue damage. Numerous studies have confirmed that melatonin, a hydro- and lipophilic hormone with strong antioxidant properties, can potentially be used as a radioprotectant in humans. Less is known about the radioprotective effects of vitamin D, but the results to date have been promising. Deficiencies in melatonin and vitamin D are common in modern societies and may contribute to the severity of adverse side effects of medical IR exposure. Hence, supporting supplementation with both substances seems to be of first importance. Interestingly, both melatonin and vitamin D have been found to selectively radiosensitise cancer cells, which makes them promising adjuvants in radiotherapy. More research is needed in this area, especially in humans.

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Attenuation of X and Gamma Rays in Personal Radiation Shielding Protective Clothing

Cited by 13 publications

References 2 publications

Electrospun Polyvinyl Butyral Nanofibers Loaded with Bismuth Oxide Nanoparticles for X-ray Shielding

Electrospun Polyvinyl Butyral Nanofibers Loaded with Bismuth Oxide Nanoparticles for X-ray Shielding

Materials in advanced design of personal protective equipment: a review

Ionizing Radiation as a Source of Oxidative Stress—The Protective Role of Melatonin and Vitamin D

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