Your search keyword '"Ionizing Radiation"' showing total 63,879 results

1. Scintillation of colloidal nanocrystals.

Author

Diroll, B. T. and Guzelturk, B.

Subjects

*SEMICONDUCTOR nanocrystals, *RADIOLUMINESCENCE, *CATHODOLUMINESCENCE, *IONIZING radiation, *PHOTONS, *QUANTUM dots, *SCINTILLATORS

Abstract

Scintillators are materials that convert ionizing radiation in the form of particles or photons into low-energy photons in the ultraviolet to near-infrared spectral range. This work reviews efforts to use colloidal nanocrystals as scintillator materials. To date, research on colloidal nanocrystals as scintillators has focused on doped phosphor systems, quantum dots and related structures, and perovskite-based nanocrystals. Among various material classes and forms, colloidal semiconductor nanocrystals stand out thanks to their appealing fluorescence properties, yet understanding of their radioluminescence and cathodoluminescence is incomplete. This review discusses fundamental limits and material design challenges toward achieving high brightness, fast speed, and durable scintillator performance with nanocrystal scintillators. First, this review describes the basic principles and efficiency limitations of scintillation, particularly the large influence of multiple exciton generation in many nanocrystal species, as well as performance metrics. Second, methods for measurement are described. Third, we review the results of the main classes of nanocrystal scintillators, including quantum dots and related particles, perovskites, and doped-phosphor particles. Fourth, scintillation imaging is discussed in terms of the relevant performance metrics and results obtained using nanocrystal materials. Finally, we note the strengths and weaknesses of nanocrystal scintillators and discuss potential areas of further development. [ABSTRACT FROM AUTHOR]

Published

2024

2. Defect dynamics in the presence of excess energetic carriers and high electric fields in wide-gap semiconductors.

Author

O'Hara, Andrew, Schrimpf, Ronald D., Fleetwood, Daniel M., and Pantelides, Sokrates T.

Subjects

*ELECTRIC fields, *HOT carriers, *RESONANT states, *EXCESS electrons, *SEMICONDUCTORS, *IONIZING radiation, *SEMICONDUCTOR defects

Abstract

Irradiation of semiconductors by energetic beams generates excess electrons and holes and may cause device degradation or failure. Both gradual degradation by total ionizing radiation (TID) and sudden degradation/failure (soft/hard breakdown) by a combination of energetic heavy ions and high voltages (typically single-event effects or SEEs) are mediated by excess carriers. The role of defect dynamics in TID degradation has been adequately understood by a combination of experiments and density-functional-theory (DFT) quantum calculations, but little has been done so far to document a role for ion-induced defects in SEE. Here, we report proof-of-principle DFT calculations in a model cubic GaN system for two defect-related excess-carrier phenomena that can play a role in various forms of device degradation and failure. The first phenomenon is the existence, dynamics, and potential roles of defect-induced quasi-localized "resonant states" in the energy-band continua. These states can enhance TID-excess-carrier and hot-carrier degradation. Furthermore, they evolve and multiply during energetic-ion-induced atom recoils and defect creation (displacement damage) and can potentially serve as excess-carrier conduction paths in SEE. The second phenomenon is the conversion of isolated vacancies into nanovoids that can participate in the formation of conducting defect "nanowires" dressed by resonances or in explosive SEE hard breakdowns. [ABSTRACT FROM AUTHOR]

Published

2024

3. Simulation of thin-film detectors of ionizing radiation and thermal neutrons based on CdTe.

Author

Kosinov, A. V., Pudov, A. O., Sokolov, S. A., Rybka, A. V., Kutny, V. E., Davydov, L. N., and Abyzov, A. S.

Subjects

*NUCLEAR counters, *IONIZING radiation, *NEUTRON counters, *THERMAL neutrons, *HEAT radiation & absorption, *SANDWICH construction (Materials)

Abstract

The article is dedicated to the numerical simulations of thin-layer structures based on CdTe semiconductors, which can be fabricated by using low-cost technologies. Structures Mo/Au/CdS/CdTe/Au, and their modifications, with different thicknesses of the main layers are investigated. The possibility of creating a detector of ionizing radiation based on these structures, which has selective properties with respect to the radiation type, and very low operation voltage, is shown. The detection efficiencies of α -, β -, and γ -radiation in different energy ranges were calculated based on the obtained values of energy losses of ionizing particles, which are proportional to the output signal of the detector. The use of such detectors, together with a solid-state converter made of boron carbide containing either natural boron nat B or boron enriched with the 10 B isotope up to 95 % , for the detection of thermal neutrons was also studied. It was shown that the structures could be used to create α -particle spectrometers, given that the CdTe thickness is tailored to the highest expected α -particle energy. Detectors with thin CdTe (1–5 μ m) can be successfully used in the counting mode. For neutron detection, stacking multiple single structures into sandwich structures was proposed and investigated. In such a configuration, the detector qualities were markedly improved: the efficiency of neutron detection reached ∼ 60 % , while the sensitivity to the background γ - and β -radiation was ∼ 100 times lower than that for neutrons. The very low sensitivity of the simulated neutron detectors to the neutron incidence angle was shown. [ABSTRACT FROM AUTHOR]

Published

2023

4. ПРАВОВЕ РЕГУЛЮВАННЯ ВІДНОСИН ЩОДО ЗАБЕЗПЕЧЕННЯ ЯДЕРНОЇ ТА РАДІАЦІЙНОЇ БЕЗПЕКИ В УКРАЇНІ В МИРНИХ УМОВАХ ТА В УМОВАХ ВОЄННОГО СТАНУ.

Author

Г. І., Балюк and Т. Г., Ковальчук

Subjects

HUMANITARIAN law, NUCLEAR energy, RUSSIAN armed forces, IONIZING radiation, RADIATION protection, MARTIAL law, NUCLEAR accidents

Abstract

The article examines the issue of legal regulation of nuclear and radiation safety relations in Ukraine in peacetime and martial law conditions. The legal aspects of the formation of nuclear legislation during the period of large-scale armed aggression of the Russian Federation against Ukraine are studied. The purpose of the article is to highlight the problems of legal regulation of nuclear and radiation safety relations in Ukraine in peacetime and martial law conditions. The authors of the article conducted a retrospective review and the current state of development of the national legislation of Ukraine in the field of ensuring nuclear and radiation safety. As a result of such consideration, it was determined that over thirty years, an extensive system of nuclear legislation has developed, at the same time, today the system of the legal framework in the field of the use of nuclear energy, ensuring nuclear and radiation safety, radiation protection of citizens from the effects of ionizing radiation in Ukraine consists of documents of three levels. The authors of the article came to the following conclusions. Ukraine must fulfill its international legal obligations in full. Despite the rather extensive system of nuclear legislation under martial law, it is actively developing and improving. At the same time, there is a need to solve the issue of improving foreign and international legislation, in particular, at the same time as the national legislation. EU legislation. In the future, the norms of this legislation must be implemented in the national legislation of all EU member states and the IAEA. Despite the inability of the IAEA to solve the issue of ensuring nuclear and radiation safety under the conditions of martial law, as well as the problem of constant nuclear blackmail by the Russian Federation, in our opinion, at the moment, it is the only international organization that is capable, by sending its experts, in particular, on the Zaporizhia NPP, which has been captured by Russian troops since March 2022, to have at least a small impact on solving the above-mentioned tasks. However, in the future, i.e. after the end of military operations in Ukraine, the international community will have to resolve issues related to the reorganization of international humanitarian law, as well as the activities of such organizations as the UN and the IAEA. [ABSTRACT FROM AUTHOR]

Published

2024

5. Forensic age estimation by MRI of the knee – comparison of two classifications for ossification stages in a German population.

Author

Malokaj, V, MF, Wernsing, SN, Kunz, Beer, M, and Daniel, Vogele

Subjects

*KNEE joint, *AGE differences, *AGE groups, *AGE, *IONIZING radiation

Abstract

Aim and objectives: In forensic age estimation e.g. for judicial proceedings surpassed age thresholds can be legally relevant. To examine age related differences in skeletal development the recommendations by the Study Group on Forensic Age Diagnostics (AGFAD) are based on ionizing radiation (among others orthopantomograms, plain x-rays of the hand). Vieth et al. and Ottow et al. proposed MRI-classifications for the epiphyseal-diaphyseal fusion of the knee joint to define different age groups in healthy volunteers. The aim of the present study was to directly compare these two classifications in a large German patient population. Materials and methods: MRI of the knee joint of 900 patients (405 female, 495 male) from 10 to 28 years of age were retrospectively analyzed. Acquired T1-weighted turbo spin-echo sequence (TSE) and T2-weighted sequence with fat suppression by turbo inversion recovery magnitude (TIRM) were analyzed for the two classifications. The different bony fusion stages of the two classifications were determined and the corresponding chronological ages assigned. Differences between the sexes were analyzed. Intra- and inter-observer agreements were determined using Cohen's kappa. Results: With the classification of Ottow et al. it was possible to determine completion of the 18th and 21st year of life in both sexes. With the classification of Vieth et al. completion of the 18th year of life for female patients and the 14th and 21st year of life in both sexes could be determined. The intra- and inter-observer agreement levels were very good (κ > 0.82). Conclusion: In the large German patient cohort of this study it was possible to determine the 18th year of life with for both sexes with the classification of Ottow et al. and for female patients with the classification of Vieth et al. It was also possible to determine the 21st year of life for all bones with the classification of Ottow et al. and for the distal femur with the classification of Vieth et al. [ABSTRACT FROM AUTHOR]

Published

2024

6. Combination of ionizing radiation and 2-thio-6-azauridine induces cell death in radioresistant triple negative breast cancer cells by downregulating CD151 expression.

Author

Marni, Rakshmitha, Malla, Manas, Chakraborty, Anindita, Voonna, Murali Krishna, Bhattacharyya, Partha Sarathi, KGK, Deepak, and Malla, Rama Rao

Subjects

*TRIPLE-negative breast cancer, *IONIZING radiation, *CELL cycle, *BREAST cancer, *CELL analysis, *CELL migration

Abstract

Background: Triple-negative breast cancer (TNBC) represents the most aggressive subtype of breast cancer and is frequently resistant to therapy, ultimately resulting in treatment failure. Clinical trials have demonstrated the potential of sensitizing radiation therapy (RT)-resistant TNBC through the combination of chemotherapy and RT. This study sought to explore the potential of CD151 as a therapy response marker in the co-treatment strategy involving ionizing radiation (IR) and the repurposed antiviral drug 2-Thio-6-azauridine (TAU) for sensitizing RT-resistant TNBC (TNBC/RR). Methods: The investigation encompassed a variety of assessments, including viability using MTT and LDH assays, cell proliferation through BrdU incorporation and clonogenic assays, cell cycle analysis via flow cytometry, cell migration using wound scratch and Boyden chamber invasion assays, DNA damage assessment through γH2AX analysis, apoptosis evaluation through acridine-orange and ethidium bromide double staining assays, as well as caspase 3 activity measurement using a colorimetric assay. CD151 expression was examined through ELISA, flow cytometry and RT-qPCR. Results: The results showed a significant reduction in TNBC/RR cell viability following co-treatment. Moreover, the co-treatment reduced cell migration, induced apoptosis, downregulated CD151 expression, and increased caspase 3 activity in TNBC/RR cells. Additionally, CD151 was predicted to serve as a therapy response marker for co-treatment with TAU and IR. Conclusion: These findings suggest the potential of combination treatment with IR and TAU as a promising strategy to overcome RT resistance in TNBC. Furthermore, CD151 emerges as a valuable therapy response marker for chemoradiotherapy. [ABSTRACT FROM AUTHOR]

Published

2024

7. Production of X-ray absorbing ceramics and products based on them for radiotherapy of the periorbital eye region.

Author

Papynov, E.K., Shichalin, O.O., Apansevich, V.I., Nikiforova, N.O., Belov, A.A., Buravlev, I. Yu, Azon, S.A., Buravleva, A.A., Gnilyak, E.A., Pankratov, I.V., and Stegniy, K.V.

Subjects

*PROTECTIVE eyeglasses, *MOHS surgery, *IONIZING radiation, *SPECIFIC gravity, *TANTALUM oxide

Abstract

The paper presents an innovative method for producing high-density ceramics based on bioinert tantalum oxide (Ta 2 O 5) and eye shield products utilizing spark plasma sintering (SPS) technology. Eye shields are in high demand for protecting the cornea and other parts of the eye from ionizing radiation during periorbital eye procedures, such as laser therapy, radiotherapy, and Mohs micrographic surgery (MMS). The dynamics of consolidation of microcrystalline Ta 2 O 5 powder under spark plasma heating conditions in the temperature range of 1000–1400 °C were investigated. The structure, phase, and elemental composition of polycrystalline ceramic samples, including the calculation of crystal structure parameters, were studied using XRD, SEM, and EDS methods. The optimal SPS parameters for achieving maximum relative density (up to 100 %) and Vickers microhardness (up to 510 H V) of the obtained ceramics were determined. The performance properties of the ceramics were examined under conditions of a session of short-focus radiation therapy applied to the periorbital facial area. A dosimetric assessment of the absorbing capacity of the ceramics under X-ray irradiation in modes from 40 to 120 keV was conducted. A prototype of a ceramic eye shield product based on Ta 2 O 5 was developed and manufactured for the first time using SPS technology. [ABSTRACT FROM AUTHOR]

Published

2024

8. Reliability and Accuracy of Ultrasound Measurement of Hip Displacement in Children with Cerebral Palsy.

Author

Pham, Thanh-Tu, Le, Lawrence H., Andersen, John, and Lou, Edmond

Subjects

*CHILDREN with cerebral palsy, *MEASUREMENT errors, *STATISTICAL reliability, *IONIZING radiation, *INTRACLASS correlation

Abstract

Hip migration percentage (MP) measured on anteroposterior pelvis radiographs is the gold standard to assess the severity of hip displacement in children with cerebral palsy (CP). Repeated exposure of these children to ionizing radiation under a hip surveillance program is undesirable. Recently, a semi-automatic approach to measure MP US on ultrasound (US) images was validated in a phantom study. This pilot in vivo study applied the previous phantom method and aimed to determine the reliability and accuracy of the MP US. Thirty-four children (23 boys and 11 girls) aged 8.9 ± 3.1 y old and diagnosed with CP were recruited. A total of 59 hips were scanned once, while 43 of these were scanned twice to evaluate the test-retest reliability. Two raters (R1 and R2) manually measured MP US ; procedures included selecting images of interest, cropping a region of interest and removing soft tissues on hip US images. Custom software was developed to measure MP automatically after the manual pre-image processing. The intra-class correlation coefficients (ICC 2,1) for the test-retest (R1), intra-rater (R1) and inter-rater (R1 vs R2) reliabilities were 0.90, 0.94 and 0.82, respectively. The standard error of measurement of MP US for all three evaluations was ≤3.0%. The mean absolute difference between MP US and MP X-ray and the percentage of MP US within clinical acceptance error of 10% for R1 and R2 were (R1: 6.2% ± 4.9%, 84.7%) and (R2: 7.6% ± 6.1%, 73.7%), respectively. This study demonstrated that US scans were repeatable and MP US could be measured reliably and accurately. [ABSTRACT FROM AUTHOR]

Published

2024

9. Comparative Analysis of the Therapeutic Effects of MSCs From Umbilical Cord, Bone Marrow, and Adipose Tissue and Investigating the Impact of Oxidized RNA on Radiation‐Induced Lung Injury.

Author

Zhai, Rui, Tai, Fumin, Ding, Kexin, Tan, Xin, Li, Hujie, Cao, Zhengyue, Ge, Changhui, Zheng, Xiaofei, Fu, Hanjiang, and Suga, Hirotaka

Subjects

*MESENCHYMAL stem cells, *TREATMENT effectiveness, *UMBILICAL cord, *BONE marrow, *IONIZING radiation, *LUNGS

Abstract

Radiation‐induced lung injury (RILI) is frequently observed in patients undergoing radiotherapy for thoracic malignancies, constituting a significant complication that hampers the effectiveness and utilization of tumor treatments. Ionizing radiation exerts both direct and indirect detrimental effects on cellular macromolecules, including DNA, RNA and proteins, but the impact of oxidized RNA in RILI remains inadequately explored. Mesenchymal stem cells (MSCs) can repair injured tissues, and the reparative potential and molecular mechanism of MSCs in treating RILI remains incompletely understood. This study aimed to investigate the therapeutic effects and mechanisms of action of three distinct sources of MSCs, including human umbilical cord mesenchymal stem cells (UCMSCs), bone marrow mesenchymal stem cells (BMSCs), and adipose‐derived stem cells (ADSCs), in thoracically irradiated mice. Comparative analysis revealed that all three types of MSCs exhibited the ability to mitigate radiation‐induced inflammatory infiltration, alveolar hemorrhage, and alveolar wall thickening in the lung tissue of the mice. MSCs also attenuated RILI by decreasing inflammatory factors, upregulating anti‐inflammatory factor expression, and reducing collagen accumulation. Immunohistochemical results showed that all three MSCs reduced radiation‐induced cell apoptosis and promoted the regeneration of lung tissue cells. The analysis of malondialdehyde (MDA) and 8‐hydroyguanosine (8‐OHG) content indicated that MSCs possess reparative properties against radiation‐induced oxidative damage in lung tissue. The study provides evidence that UCMSCs are a more appropriate therapeutic option for RILI compared to BMSCs and ADSCs. Additionally, MSCs effectively reduce the accumulation of oxidized RNA in RILI, thereby, presenting a unique avenue for investigating the underlying mechanism of MSC‐based treatment for RILI. [ABSTRACT FROM AUTHOR]

Published

2024

10. Enhanced thermoluminescence of sodium-doped lithium–magnesium fluorophosphate Li9Mg3[PO4]4F3.

Author

Akulov, D. A., Kalinkin, M. O., Chufarov, A. Y., Tyutyunnik, A. P., Semkin, M. A., Medvedeva, N. I., Zhuravlev, N. A., Abashev, R. M., Surdo, A. I., and Kellerman, D. G.

Subjects

*AB-initio calculations, *NEUTRON diffraction, *THERMOLUMINESCENCE, *IONIZING radiation, *X-ray diffraction

Abstract

Lithium–magnesium fluorophosphate with the formula Li9Mg3[PO4]4F3 has recently been proposed as a new thermoluminescent material capable of storing ionizing radiation energy and emitting photons after additional thermal stimulation. Pure and sodium-doped fluorophosphates were obtained by microwave-assisted synthesis. Using X-ray and neutron diffraction methods, it was shown that sodium occupies only one of the three nonequivalent lithium positions. This conclusion was confirmed by a MAS NMR study and ab initio calculations. A significant increase in the thermoluminescence intensity of sodium-containing fluorophosphates in comparison to the undoped compound was found. Analysis of the kinetic parameters obtained from glow curves showed that they are similar for the undoped and sodium-doped samples. This indicates that the addition of sodium does not result in the emergence of novel types of traps, but rather in a change in their number. The effect of sodium on the formation of intrinsic defects, which can be responsible for the enhanced thermoluminescence, is considered using ab initio modelling. [ABSTRACT FROM AUTHOR]

Published

2024

11. Ribosomal S6 kinase (RSK) plays a critical role in DNA damage response via the phosphorylation of histone lysine demethylase KDM4B.

Author

Wu, Wenwen, Zhu, Jing, Nihira, Naoe Taira, Togashi, Yukiko, Goda, Atsushi, Koike, Junki, Yamaguchi, Kiyoshi, Furukawa, Yoichi, Tomita, Takuya, Saeki, Yasushi, Johmura, Yoshikazu, Nakanishi, Makoto, Miyoshi, Yasuo, and Ohta, Tomohiko

Subjects

DNA repair, HISTONE demethylases, DOUBLE-strand DNA breaks, RNA interference, SMALL interfering RNA, ESTROGEN

Abstract

Background: Epigenetic dysregulation affecting oncogenic transcription and DNA damage response is a hallmark of cancer. The histone demethylase KDM4B, a factor regulating these processes, plays important roles in estrogen receptor-mediated transcription and DNA repair in breast cancer. However, how oncogenic phospho-signal transduction affects epigenetic regulation is not fully understood. Here we found that KDM4B phosphorylation by ribosomal S6 kinase (RSK), a downstream effector of the Ras/MAPK pathway, is critical for the function of KDM4B in response to DNA damage. Methods: KDM4B-knockout breast cancer cell lines were generated via CRISPR/Cas9-mediated gene editing. Re-expression of wild-type or phospho-site mutated KDM4B in knockout cells was performed by lentivirus-mediated gene transfer. Gene knockdown was achieved by RNA interference. DNA double-strand breaks (DSBs) were induced by ionizing radiation or laser-microirradiation. Protein accumulation at DSB sites was analyzed by immunofluorescence. KDM4B phosphorylation by RSK was assessed by in vitro and in vivo kinase assays. Gene and protein expression levels were analyzed by RT‒PCR and western blotting. The sensitivity of cells to ionizing radiation was examined by a clonogenic survival assay. Results: RSK phosphorylated KDM4B at Ser666, and inhibition of the phosphorylation by RSK depletion or RSK inhibitors abrogated KDM4B accumulation at the sites of DNA double-strand breaks (DSBs). DSB repair was significantly delayed in KDM4B-knockout cells or cells treated with RSK inhibitors. The replacement of endogenous KDM4B with the phosphomimetic mutant S666D restored KDM4B accumulation and DSB repair that had been inhibited by RSK inhibitors, suggesting a critical role for RSK at the specific serine residue of KDM4B in the effect of RSK inhibitors on DSB repair. As a consequence of these aberrant responses, inhibition of KDM4B phosphorylation increased the sensitivity of the cells to ionizing radiation. Conclusions: Overall, the present study uncovered a novel function of RSK on the DNA damage response, which provides an additional role of its inhibitor in cancer therapy. [ABSTRACT FROM AUTHOR]

Published

2024

12. Effect of ionizing radiation on the shear bond strength of two different adhesive systems in primary teeth. in-vitro study.

Author

Shahin, Nourhan Mahmoud, Nagi, Basma Mahmoud, Amin, Amin El Sayed, and Badran, Amira Saad

Subjects

DENTAL bonding, SHEAR (Mechanics), DENTAL fillings, IN vitro studies, RADIATION, DENTIN, DECIDUOUS dentition (Tooth development), ADHESIVES, ANALYSIS of variance, DATA analysis software

Abstract

Background: Radiotherapy is a treatment modality used for head and neck cancer patients. It has a negative influence on bonding strength of adhesives. Little information is available about the effect of radiotherapy on bonding strength of adhesives in primary teeth. Therefore, this in vitro study aimed to detect the best adhesive system and ideal time to apply restorations in primary irradiated teeth regarding adhesive shear bond strength. Methods: Dentin samples from primary teeth were randomly assigned to four groups based on restoration application time and radiation exposure, (G1: control, G2: preradiation, G3: 24 h postradiation, and G4: 6 months postradiation) with 20 samples per group. These groups were further divided into 2 subgroups according to the adhesive system used, with 10 samples per subgroup. (1) 3M™ Single Bond Universal Adhesive (SB), (2) 3M AdperSingle Bond 2 (AS). Samples were exposed to gamma radiation from a cobalt-60 machine. One shot of 60 Gy of radiation was delivered. Then samples were subjected to a shear bond strength test. The load was applied until failure and the maximum load was recorded. Numerical data are presented as mean and standard deviation values, then distributed according to Shapiro–Wilk test or Levene's test and analyzed via two-way ANOVA. The significance level was set at p < 0.05 for all tests. Statistical analysis was performed with R statistical analysis software version 4.4.1 for Windows (Team RC, R: A language and environment for statistical computing. R foundation for statistical computing, 2023). Results: Compared with the AS subgroup, the SB subgroup presented significantly greater values (p < 0.001). For SB, there was no significant difference among the G1 and G4 groups (p > 0.001). However, there was a significant difference between G1, G2, and G3 (p < 0.001, P = 0.025, P = 0.265 ns respectively), and G3 presented the lowest values. For AS, there was no significant difference between groups G1 and G4 (p = < 0.001). Compared with the other groups, G3 presented a significant difference (p = 0.265 ns) and the lowest results. Conclusion: Restorations performed 24 h after radiation had lower bond strength than those performed six months after radiation. Regardless of the adhesive system used, SB performed better than AS in terms of the shear bond strength. [ABSTRACT FROM AUTHOR]

Published

2024

13. Enhanced thermoluminescence of sodium-doped lithium–magnesium fluorophosphate Li9Mg3[PO4]4F3.

Author

Akulov, D. A., Kalinkin, M. O., Chufarov, A. Y., Tyutyunnik, A. P., Semkin, M. A., Medvedeva, N. I., Zhuravlev, N. A., Abashev, R. M., Surdo, A. I., and Kellerman, D. G.

Subjects

AB-initio calculations, NEUTRON diffraction, THERMOLUMINESCENCE, IONIZING radiation, X-ray diffraction

Abstract

Lithium–magnesium fluorophosphate with the formula Li9Mg3[PO4]4F3 has recently been proposed as a new thermoluminescent material capable of storing ionizing radiation energy and emitting photons after additional thermal stimulation. Pure and sodium-doped fluorophosphates were obtained by microwave-assisted synthesis. Using X-ray and neutron diffraction methods, it was shown that sodium occupies only one of the three nonequivalent lithium positions. This conclusion was confirmed by a MAS NMR study and ab initio calculations. A significant increase in the thermoluminescence intensity of sodium-containing fluorophosphates in comparison to the undoped compound was found. Analysis of the kinetic parameters obtained from glow curves showed that they are similar for the undoped and sodium-doped samples. This indicates that the addition of sodium does not result in the emergence of novel types of traps, but rather in a change in their number. The effect of sodium on the formation of intrinsic defects, which can be responsible for the enhanced thermoluminescence, is considered using ab initio modelling. [ABSTRACT FROM AUTHOR]

Published

2024

14. The very (radio)active life of Pierre C.C.

Author

Badie, Christophe, Cruz-Garcia, Lourdes, and Ammerich, Marc

Subjects

*BACKGROUND radiation, *OCCUPATIONAL exposure, *IONIZING radiation, *RADIATION exposure, *RADIOACTIVE decay

Abstract

AbstractPurposeConclusionIn this short tale, we describe a year of Pierre Chris Curry’s ionizing radiation (IR) exposure, assessing and summarizing how much he has been exposed to over a year of his fictive life, cumulating the different types of exposures (either due to natural radiation, occupational and medical exposure), while staying reasonably credible. We have limited ourselves to IR exposure. As a recognized specialist in interventional cardiac surgery, Pierre provides lectures at international conferences requiring overseas flights. When not traveling, Pierre lives in Brittany in an area where there is high natural background radiation, owing to significant concentrations of radon, a radioactive gas produced from the natural radioactive decay of uranium found in rocks, granite in this case.Natural exposures correspond to half of Pierre’s total yearly exposure. Therefore, where you live, and your life habits have an important impact on your radiation exposure levels. Medical exposures take the second place in the ranking, but these exposures are punctual. Although his professional exposure is the lowest percentage, this represents a chronic exposure which is continuous over the duration of his working life, and alongside the natural exposure, is building on over-time. Although Pierre calculated total yearly dose was 58.4 mSv, significantly higher than the average in countries such as France, UK or even USA, his excess risk of death from cancer was still very low 0.292%. [ABSTRACT FROM AUTHOR]

Published

2024

15. Anti irradiation nanoparticles shelter immune organ from radio-damage via preventing the IKK/IκB/NF-κB activation.

Author

Huang, Shigao, Xu, Min, Deng, Xiaojun, Da, Qingyue, Li, Miaomiao, Huang, Hao, Zhao, Lina, Jing, Linlin, and Wang, Haibo

Subjects

*IONIZING radiation, *NITROXIDES, *REACTIVE oxygen species, *GLUTATHIONE peroxidase, *SUPEROXIDE dismutase

Abstract

Background: Normal tissue and immune organ protection are critical parts of the tumor radiation therapy process. Radiation-induced immune organ damage (RIOD) causes several side reactions by increasing oxidative stress and inflammatory responses, resulting in unsatisfactory curability in tumor radiation therapy. The aim of this study was to develop a novel and efficient anti irradiation nanoparticle and explore its mechanism of protecting splenic tissue from radiation in mice. Methods: Nanoparticles of triphenylphosphine cation NIT radicals (NPs-TPP-NIT) were prepared and used to protect the spleens of mice irradiated with X-rays. Splenic tissue histopathology and hematological parameters were investigated to evaluate the protective effect of NPs-TPP-NIT against X-ray radiation. Proteomics was used to identify differentially expressed proteins related to inflammatory factor regulation. In addition, in vitro and in vivo experiments were performed to assess the impact of NPs-TPP-NIT on radiation therapy. Results: NPs-TPP-NIT increased superoxide dismutase, catalase, and glutathione peroxidase activity and decreased malondialdehyde levels and reactive oxygen species generation in the spleens of mice after exposure to 6.0 Gy X-ray radiation. Moreover, NPs-TPP-NIT inhibited cell apoptosis, blocked the activation of cleaved cysteine aspartic acid–specific protease/proteinase, upregulated the expression of Bcl-2, and downregulated that of Bax. We confirmed that NPs-TPP-NIT prevented the IKK/IκB/NF-κB activation induced by ionizing radiation, thereby alleviating radiation-induced splenic inflammatory damage. In addition, when used during radiotherapy for tumors in mice, NPs-TPP-NIT exhibited no significant toxicity and conferred no significant tumor protective effects. Conclusions: NPs-TPP-NIT prevented activation of IKK/IκB/NF-κB signaling, reduced secretion of pro-inflammatory factors, and promoted production of anti-inflammatory factors in the spleen, which exhibited radiation-induced damage repair capability without diminishing the therapeutic effect of radiation therapy. It suggests that NPs-TPP-NIT serve as a potential radioprotective drug to shelter immune organs from radiation-induced damage. [ABSTRACT FROM AUTHOR]

Published

2024

16. A comprehensive review of sensors of radiation‐induced damage, radiation‐induced proximal events, and cell death.

Author

Saini, Saurabh and Gurung, Prajwal

Subjects

*PATTERN perception receptors, *DNA repair, *IONIZING radiation, *MEDICAL technology, *REACTIVE oxygen species, *CELL death

Abstract

Summary Radiation, a universal component of Earth's environment, is categorized into non‐ionizing and ionizing forms. While non‐ionizing radiation is relatively harmless, ionizing radiation possesses sufficient energy to ionize atoms and disrupt DNA, leading to cell damage, mutation, cancer, and cell death. The extensive use of radionuclides and ionizing radiation in nuclear technology and medical applications has sparked global concern for their capacity to cause acute and chronic illnesses. Ionizing radiation induces DNA damage either directly through strand breaks and base change or indirectly by generating reactive oxygen species (ROS) and reactive nitrogen species (RNS) via radiolysis of water. This damage triggers a complex cellular response involving recognition of DNA damage, cell cycle arrest, DNA repair mechanisms, release of pro‐inflammatory cytokines, and cell death. This review focuses on the mechanisms of radiation‐induced cellular damage, recognition of DNA damage and subsequent activation of repair processes, and the critical role of the innate immune response in resolution of the injury. Emphasis is placed on pattern recognition receptors (PRRs) and related receptors that detect damage‐associated molecular patterns (DAMPs) and initiate downstream signaling pathways. Radiation‐induced cell death pathways are discussed in detail. Understanding these processes is crucial for developing strategies to mitigate the harmful effects of radiation and improve therapeutic outcomes. [ABSTRACT FROM AUTHOR]

Published

2024

17. A Caspase 3‐Hijacking Nanosystem Enhances Cancer Radiotherapy by Suppressing Tumor Repopulation.

Author

Zhao, Xiu, Jiang, Wenxiao, Wang, Aijin, Zhao, Kaikai, Li, Jun, Xie, Yingxin, Zhang, Zhenzhong, Shi, Jinjin, Liu, Wei, and Liu, Junjie

Subjects

*REACTIVE oxygen species, *IONIZING radiation, *CANCER radiotherapy, *TREATMENT failure, *TUMOR growth

Abstract

Radiotherapy is used in the treatment of ≈50% of patients with cancer. However, tumor repopulation is a major cause of treatment failure after radiotherapy. It is observed that apoptotic tumor following ionizing radiation (IR) accelerated the growth of surviving tumor cells. Here a Gasdermin E and Tannic acid‐based nanoassembly (GT) loaded with manganese tetroxide (Mn3O4) (termed as Mn3O4@GT) is developed to suppress tumor repopulation and improve the treatment outcome of radiotherapy. Mn3O4@GT enables an increase in the reactive oxygen species accumulation in tumor cells, enhancing radiotherapy‐mediated tumor killing. What's more, it can hijack activated caspase 3 to induce tumor pyroptosis, reversing apoptosis‐mediated tumor repopulation. In vivo results shows that Mn3O4@GT significantly reduced the IR induced tumor repopulation by 2.7 fold, resulting in 92% complete regression of tumors. In addition, Mn3O4@GT can sensitize tumors to anti‐PD‐L1 therapy by inducing immunogenic pyroptosis with 85% regression of distant tumors. The caspase 3‐hijacking nanosystem holds a great potential for improving the clinical benefits of radiotherapy. [ABSTRACT FROM AUTHOR]

Published

2024

18. AdipoRon Alleviates Liver Injury by Protecting Hepatocytes from Mitochondrial Damage Caused by Ionizing Radiation.

Author

Liu, Yi, Xu, Yinfen, Ji, Huilin, Gao, Fenfen, Ge, Ruoting, Zhou, Dan, Fu, Hengyi, Liu, Xiaodong, and Ma, Shumei

Abstract

Radiation liver injury is a common complication of hepatocellular carcinoma radiotherapy. It is mainly caused by irreversible damage to the DNA of hepatocellular cells directly by radiation, which seriously interferes with metabolism and causes cell death. AdipoRon can maintain lipid metabolism and stabilize blood sugar by activating adiponectin receptor 1 (AdipoR1). However, the role of AdipoRon/AdipoR1 in the regulation of ionizing radiation (IR)-induced mitochondrial damage remains unclear. In this study, we aimed to elucidate the roles of AdipoRon/AdipoR1 in IR-induced mitochondrial damage in normal hepatocyte cells. We found that AdipoRon treatment rescued IR-induced liver damage in mice and mitochondrial damage in normal hepatocytes in vivo and in vitro. AdipoR1 deficiency exacerbated IR-induced oxidative stress, mitochondrial dynamics, and biogenesis disorder. Mechanistically, the absence of AdipoR1 inhibits the activity of adenosine monophosphate-activated protein kinase α (AMPKα), subsequently leading to disrupted mitochondrial dynamics by decreasing mitofusin (MFN) and increasing dynamin-related protein 1 (DRP1) protein expression. It also controls mitochondrial biogenesis by suppressing the peroxisome proliferator-activated receptor-gamma coactivator-1 alpha (PGC1α) and transcription factor A (TFAM) signaling pathway, ultimately resulting in impaired mitochondrial function. To sum up, AdipoRon/AdipoR1 maintain mitochondrial function by regulating mitochondrial dynamics and biogenesis through the AdipoR1-AMPKα signaling pathway. This study reveals the significant role of AdipoR1 in regulating IR-induced mitochondrial damage in hepatocytes and offers a novel approach to protecting against damage caused by IR. [ABSTRACT FROM AUTHOR]

Published

2024

19. Isotopically Enriched Lithium Fluoride Crystals for Detection of Neutrons with the Fluorescent Track Technique.

Author

Sankowska, Małgorzata, Bilski, Paweł, Kłosowski, Mariusz, Kilian, Anna, Gieszczyk, Wojciech, and Marczewska, Barbara

Abstract

In this work, the properties of LiF crystals grown using Li of different isotopic compositions are described from the standpoint of their application as fluorescent nuclear track detectors used in measurements in the neutron radiation fields. The crystals were grown using two techniques: the Czochralski method and the micro-pulling-down method. Three isotopic compositions of Li were studied: natural, highly enriched in 6Li, and highly enriched in 7Li. It was found that 6LiF detectors are about six times more sensitive to thermal (low energy) neutrons than natural LiF, which significantly decreases the lower detection limit. 7LiF detectors are insensitive to thermal neutrons, which makes it easier to detect tracks due to other radiation modalities, such as energetic ions or nuclei recoiled in collisions with high-energy neutrons. Besides the response to neutron radiation, no other significant differences in the crystal properties were identified, irrespective of the isotopic composition and crystal growth method employed. [ABSTRACT FROM AUTHOR]

Published

2024

20. A comprehensive review of radiation shielding concrete: Properties, design, evaluation, and applications.

Author

Barbhuiya, Salim, Das, Bibhuti Bhusan, Norman, Paul, and Qureshi, Tanvir

Subjects

*RADIATION shielding, *IONIZING radiation, *MONTE Carlo method, *MATHEMATICAL optimization, *TECHNOLOGICAL innovations

Abstract

This review paper provides a comprehensive analysis of radiation shielding concrete, covering its properties, design, evaluation, and applications. It begins with an introduction, stating the objective and scope. The paper explores radiation shielding basics, including ionizing radiation, shielding principles, and materials used for shielding. Concrete's properties relevant to shielding, radiation attenuation mechanisms, and factors affecting its efficiency are discussed. Different types of radiation shielding concrete are examined, along with their applications. The design and formulation of shielding concrete, including mix proportions, optimization techniques, and quality control, are presented. Evaluation methods and standards are discussed. Lastly, challenges, future directions, and emerging technologies are outlined. This review paper serves as a valuable resource for professionals involved in radiation shielding. The review on radiation shielding concrete highlighted its effectiveness in attenuating ionizing radiation, emphasizing material composition, density, and thickness as key design factors. Evaluation methods, such as gamma spectroscopy and Monte Carlo simulations, are discussed, demonstrating its versatile applications in nuclear facilities, healthcare, and space exploration. [ABSTRACT FROM AUTHOR]

Published

2024

21. Developing Food Consumer Attitudes towards Ionizing Radiation and Genetic Modification.

Author

Junaedi, Iwan, McNeill, Lisa S., and Hamlin, Robert P.

Abstract

Background/Objectives: This study investigates consumer perceptions and acceptance of ionizing radiation (IoR) as a perishable food stabilisation technology. Consumers' preferences influence the success of emerging food technologies. Therefore, a comprehensive understanding of consumers' behavioural responses and their development over time is essential. Methods: This research employs a mixed-methods approach, surveying 313 young adults in New Zealand on their views of both irradiated (IoR) and genetically modified (GM) highly perishable foods. This study explored both participants' attitudes towards these two technologies and also their willingness to consume these foods. Results: The qualitative research revealed a preponderance of "affective" associations over "cognitive" associations with regard to both IoR and GM technologies. The quantitative research indicated that where consumers were given time to reflect, evaluations of GM improved, while those of IoR did not (p < 0.01). There was a gender divide, with females being more positively inclined towards GM and males towards IoR (p < 0.01). Both technologies were significantly disfavoured compared to non-treated products (p < 0.01). There was a significant discrimination when the two technologies were presented as concepts and as products. GM was more favourably received as a concept than as a product (p < 0.01), while IoR was disfavoured in either form. The two food neophobia scales that were tested showed a divergence in performance, with the more affectively based scale showing a higher level of correlation with behaviour. Conclusions: This research reveals that a largely affective (visceral) distrust of both IoR and GM exists within this young food consumer sample. As it is affective in nature, this position will be very resistant to education efforts, particularly if they are "cognitively" based. However, a significant softening of these affective attitudes towards GM products indicates that such efforts may be effective, given time and investment. [ABSTRACT FROM AUTHOR]

Published

2024

22. Non-homogenous intratumor ionizing radiation doses synergize with PD1 and CXCR2 blockade.

Author

Bergeron, Paul, Dos Santos, Morgane, Sitterle, Lisa, Tarlet, Georges, Lavigne, Jeremy, Liu, Winchygn, Gerbé de Thoré, Marine, Clémenson, Céline, Meziani, Lydia, Schott, Cathyanne, Mazzaschi, Giulia, Berthelot, Kevin, Benadjaoud, Mohamed Amine, Milliat, Fabien, Deutsch, Eric, and Mondini, Michele

Subjects

RADIOTHERAPY complications, IONIZING radiation, IMMUNE checkpoint proteins, RNA sequencing, FLOW cytometry

Abstract

The efficacy and side effects of radiotherapy (RT) depend on parameters like dose and the volume of irradiated tissue. RT induces modulations of the tumor immune microenvironment (TIME) that are dependent on the dose. Low dose RT (LDRT, i.e., single doses of 0.5–2 Gy) has been shown to promote immune infiltration into the tumor. Here we hypothesize that partial tumor irradiation combining the immunostimulatory/non-lethal properties of LDRT with cell killing/shrinkage properties of high dose RT (HDRT) within the same tumor mass could enhance anti-tumor responses when combined with immunomodulators. In models of colorectal and breast cancer in immunocompetent female mice, partial irradiation (PI) with millimetric precision to deliver LDRT (2 Gy) and HDRT (16 Gy) within the same tumor induces substantial tumor control when combined with anti-PD1. Using flow cytometry, cytokine profiling and single-cell RNA sequencing, we identify a crosstalk between the TIME of the differentially irradiated tumor volumes. PI reshapes tumor-infiltrating CD8+ T cells into more cytotoxic and interferon-activated phenotypes but also increases the infiltration of pro-tumor neutrophils driven by CXCR2. The combination of the CXCR2 antagonist SB225002 with PD1 blockade and PI improves tumor control and mouse survival. Our results suggest a strategy to reduce RT toxicity and improve the therapeutic index of RT and immune checkpoint combinations. Low dose-radiation therapy (LDRT) can promote anti-tumor immune responses. Here the authors propose to combine the immunostimulatory properties of LDRT with the cell killing/shrinkage properties of high dose RT within the same tumor mass as a strategy to optimize RT-induced anti-tumor immune responses. [ABSTRACT FROM AUTHOR]

Published

2024

23. The physiology of plants in the context of space exploration.

Author

Maffei, Massimo E., Balestrini, Raffaella, Costantino, Paolo, Lanfranco, Luisa, Morgante, Michele, Battistelli, Alberto, and Del Bianco, Marta

Subjects

*SPACE environment, *PLANT physiology, *GEOMAGNETISM, *PLANT breeding, *IONIZING radiation

Abstract

The stress that the space environment can induce on plant physiology is of both abiotic and biotic nature. The abiotic space environment is characterized by ionizing radiation and altered gravity, geomagnetic field (GMF), pressure, and light conditions. Biotic interactions include both pathogenic and beneficial interactions. Here, we provide an overall picture of the effects of abiotic and biotic space-related factors on plant physiology. The knowledge required for the success of future space missions will lead to a better understanding of fundamental aspects of plant physiological responses, thus providing useful tools for plant breeding and agricultural practices on Earth. A review summarizes the effects of abiotic (ionizing radiation, altered gravity, geomagnetic field, pressure, and light conditions) and both beneficial and pathogenic biotic space-related factors on plant physiology. [ABSTRACT FROM AUTHOR]

Published

2024

24. Radiosensitivity in individuals with tuberous sclerosis complex.

Author

Kuhlmann, Lukas, Stritzelberger, Jenny, Fietkau, Rainer, Distel, Luitpold V., and Hamer, Hajo M.

Subjects

TUBEROUS sclerosis, FLUORESCENCE in situ hybridization, CANCER patients, CHROMOSOME abnormalities, IONIZING radiation

Abstract

Benign tumors, but rarely cancer, are common in patients with tuberous sclerosis complex (TSC). Blood samples from patients undergoing treatment for TSC at our institution were analyzed for their individual sensitivity to ionizing radiation. Blood samples were collected from 13 adult patients with TSC. The samples were irradiated ex vivo and analyzed by 3-color fluorescence in situ hybridization. In each patient, aberrations were analyzed in 200 metaphases of chromosomes 1, 2, and 4 and scored as breaks. Radiosensitivity was determined by mean breaks per metaphase (B/M) and compared to both healthy donors and oncologic patients. The radiosensitivity (B/M) of the TSC patient cohort (n = 13; female: 46.2%, B/M: 0.48 ± 0.11) was clearly increased compared to healthy individuals of similar age (n = 90; female: 54.4%; B/M: 0.40 ± 0.09; p = 0.001). There was no difference compared to age-matched oncological patients (n = 78; female: 67.9%; B/M 0.49 ± 0.14; p = 0.246). Similarly, the proportion of radiosensitive (B/M > 0.5) and distinctly radiosensitive individuals (B/M > 0.6) was increased in the TSC and oncological patient cohorts (TSC: 30.8% and 7.7%, oncological patients: 46.2% and 14.1%) compared to the healthy individuals (11.1% and 2.2%). Although patients with TSC develop mostly benign and rarely malignant tumors, they are similarly sensitive to radiation as patients with malignant tumors. [ABSTRACT FROM AUTHOR]

Published

2024

25. Glycyrrhizin Protects Submandibular Gland Against Radiation Damage by Enhancing Antioxidant Defense and Preserving Mitochondrial Homeostasis.

Author

Zhou, Xin-Ru, Wang, Xin-Yue, Sun, Yue-Mei, Zhang, Chong, Liu, Ke Jian, Zhang, Fu-Yin, and Xiang, Bin

Subjects

*TRANSCRIPTION factors, *SUBMANDIBULAR gland, *RADIATION damage, *HEAD & neck cancer, *ADENOSINE triphosphate, *MITOCHONDRIAL membranes

Abstract

Aims: Radiotherapy inevitably causes radiation damage to the salivary glands (SGs) in patients with head and neck cancers (HNCs). Excessive reactive oxygen species (ROS) levels and imbalanced mitochondrial homeostasis are serious consequences of ionizing radiation in SGs; however, there are few mitochondria-targeting therapeutic approaches. Glycyrrhizin is the main extract of licorice root and exhibits antioxidant activity to relieve mitochondrial damage in certain oxidative stress conditions. Herein, the effects of glycyrrhizin on irradiated submandibular glands (SMGs) and the related mechanisms were investigated. Results: Glycyrrhizin reduced radiation damage in rat SMGs at both the cell and tissue levels, and promoted saliva secretion in irradiated SMGs. Glycyrrhizin significantly downregulated high-mobility group box-1 protein (HMGB1) and toll-like receptor 5 (TLR5). Moreover, glycyrrhizin significantly suppressed the increases in malondialdehyde and glutathione disulfide (GSSG) levels; elevated the activity of some critical antioxidants, including superoxide dismutase, catalase, glutathione peroxidase, and glutathione (GSH); and increased the GSH/GSSG ratio in irradiated cells. Importantly, glycyrrhizin effectively enhanced thioredoxin-2 levels and scavenged mitochondrial ROS, inhibited the decline in mitochondrial membrane potential, improved adenosine triphosphate synthesis, preserved the mitochondrial ultrastructure, activated the proliferator-activated receptor-gamma coactivator-1alpha (PGC-1α)/nuclear respiratory factor 1/2 (NRF1/2)/mitochondrial transcription factor A (TFAM) signaling pathway, and inhibited mitochondria-related apoptosis in irradiated SMG cells and tissues. Innovation: Radiotherapy causes radiation sialadenitis in HNC patients. Our data suggest that glycyrrhizin could be a mitochondria-targeted antioxidant for the prevention of radiation damage in SGs. Conclusion: These findings demonstrate that glycyrrhizin protects SMGs from radiation damage by downregulating HMGB1/TLR5 signaling, maintaining intracellular redox balance, eliminating mitochondrial ROS, preserving mitochondrial homeostasis, and inhibiting apoptosis. [ABSTRACT FROM AUTHOR]

Published

2024

26. Overcoming the limits of pediatric brain tumor radiotherapy: The use of preclinical 3D models.

Author

Czuba, Élodie, Deschuyter, Marlène, Entz-Werlé, Natacha, Noël, Georges, and Burckel, Hélène

Subjects

*CANCER radiotherapy, *IONIZING radiation, *MEDULLOBLASTOMA, *CLINICAL trials, BRAIN tumor diagnosis

Abstract

Radiotherapy (RT) is an integral part of managing pediatric brain tumors, yet many patients develop tumor radioresistance, leading to recurrence and poor clinical outcomes. In addition, neurocognitive impairment is a common long-term side effect of RT, significantly impairing quality of life. Indeed, increasing evidence suggests that the developing child's brain is particularly vulnerable to the neurotoxic effects of ionizing radiation. Consequently, developing novel preclinical models is crucial for studying radiation's impact on normal brain tissue and predicting patient-specific responses to RT, enabling the development of personalized therapies combined with RT. However, this area remains underexplored, primarily due to the transfer of results gathered from in vitro tumor models from adults to pediatric entities while the location and molecular characteristics of the brain tumor differ. Recent years have seen the emergence of patient-specific 3D in vitro models, which have been established for entities including glioblastoma and medulloblastoma. These models better mimic primary parenteral tumors more closely in their histological, transcriptional, and mutational characteristics, thus approximating their intratumoral heterogeneity more accurately than conventional 2D-models. In this review, we presented the main limits of pediatric brain tumor radiotherapy, including mechanisms of radioresistance, associated tumor relapse, and the side effects of irradiation on the central nervous system. We also conducted an exhaustive review to identify studies utilizing basic or advanced 3D models of pediatric brain tumors combined with irradiation and discussed how these models can overcome the limitations of RT. [ABSTRACT FROM AUTHOR]

Published

2024

27. Role of autophagy in modulating tumor cell radiosensitivity: Exploring pharmacological interventions for glioblastoma multiforme treatment.

Author

Bischoff, Pierre, Bou-Gharios, Jolie, Noël, Georges, and Burckel, Hélène

Subjects

*AUTOPHAGY, *GLIOBLASTOMA multiforme treatment, *RADIATION-sensitizing agents, *HOMEOSTASIS, *PHARMACOLOGY

Abstract

Autophagy is an innate cellular process characterized by self-digestion, wherein cells degrade or recycle aged proteins, misfolded proteins, and damaged organelles via lysosomal pathways. Its crucial role in maintaining cellular homeostasis, ensuring development and survival is well established. In the context of cancer therapy, autophagy's importance is firmly recognized, given its critical impact on treatment efficacy. Following radiotherapy, several factors can modulate autophagy including parameters related to radiation type and delivery methods. The concomitant use of chemotherapy with radiotherapy further influences autophagy, potentially either enhancing radiosensitivity or promoting radioresistance. This review article discusses some pharmacological agents and drugs capable of modulating autophagy levels in conjunction with radiation in tumor cells, with a focus on those identified as potential radiosensitizers in glioblastoma multiforme treatment. [ABSTRACT FROM AUTHOR]

Published

2024

28. LET‐based approximation of the microdosimetric kinetic model for proton radiotherapy.

Author

Parisi, Alessio, Furutani, Keith M., Sato, Tatsuhiko, and Beltran, Chris J.

Subjects

*LINEAR energy transfer, *PROTON therapy, *IONIZING radiation, *PROTONS, *CELL lines

Abstract

Background: Phenomenological relative biological effectiveness (RBE) models for proton therapy, based on the dose‐averaged linear energy transfer (LET), have been developed to address the apparent RBE increase towards the end of the proton range. The results of these phenomenological models substantially differ due to varying empirical assumptions and fitting functions. In contrast, more theory‐based approaches are used in carbon ion radiotherapy, such as the microdosimetric kinetic model (MKM). However, implementing microdosimetry‐based models in LET‐based proton therapy treatment planning systems poses challenges. Purpose: This work presents a LET‐based version of the MKM that is practical for clinical use in proton radiotherapy. Methods: At first, we derived an approximation of the Mayo Clinic Florida (MCF) MKM for relatively‐sparsely ionizing radiation such as protons. The mathematical formalism of the proposed model is equivalent to the original MKM, but it maintains some key features of the MCF MKM, such as the determination of model parameters from measurable cell characteristics. Subsequently, we carried out Monte Carlo calculations with PHITS in different simulated scenarios to establish a heuristic correlation between microdosimetric quantities and the dose averaged LET of protons. Results: A simple allometric function was found able to describe the relationship between the dose‐averaged LET of protons and the dose‐mean lineal energy, which includes the contributions of secondary particles. The LET‐based MKM was used to model the in vitro clonogenic survival RBE of five human and rodent cell lines (A549, AG01522, CHO, T98G, and U87) exposed to pristine and spread‐out Bragg peak (SOBP) proton beams. The results of the LET‐based MKM agree well with the biological data in a comparable or better way with respect to the other models included in the study. A sensitivity analysis on the model results was also performed. Conclusions: The LET‐based MKM integrates the predictive theoretical framework of the MCF MKM with a straightforward mathematical description of the RBE based on the dose‐averaged LET, a physical quantity readily available in modern treatment planning systems for proton therapy. [ABSTRACT FROM AUTHOR]

Published

2024

29. Improving Therapy for Children with Scoliosis through Reducing Ionizing Radiation by Using Alternative Imaging Methods—A Study Protocol.

Author

Keil, Fee, Schneider, Robert, Polomac, Nenad, Zabar, Omar, Finger, Tobias, Holzgreve, Fabian, Czabanka, Marcus, Erbe, Christina, Groneberg, David A., Hattingen, Elke, Ohlendorf, Daniela, and Diaremes, Panagiotis

Subjects

*SCOLIOSIS in children, *PATIENTS, *MAGNETIC resonance imaging, *IONIZING radiation, *RADIATION protection

Abstract

Background: Patients with scoliosis often require multiple imaging modalities. The aim of this study was to find out whether primary diagnosis, including surgical planning, could be carried out entirely without computed tomography (CT) scans and whether follow-up could be replaced with alternative methods without the use of X-rays. In order to reduce the radiation exposure in the diagnosis and treatment of severe scoliosis, we expect to replace X-rays with radiation-free or less-intensive radiation examinations. This study protocol is interdisciplinary. Methods: A total of 50 male and female patients (children and adolescents, aged 7–18 years) treated for scoliosis will be analyzed. In addition to routine projection radiographs, preoperative CT, and/or X-ray stereoradiography (EOS) examinations, thin-slice 3D magnetic resonance imaging (MRI) sequences will be retrospectively reformatted during the preoperative MRI examination. A three-dimensional back scan (video-raster stereography) and an intraoral scan will also be obtained. The following questions should be answered at the end of the project: (1) Can MRI examination with additional thin-slice 3D reconstruction answer all relevant questions for preoperative planning instead of CT? (2) Are EOS or whole-spine X-ray examinations in combination with MRI data sufficient for the evaluation of the pedicles and spinal deformity? (3) Does the Cobb angle in the radiograph correlate with the calculations from the back scanner image and can follow-up checks be replaced? (4) Are there any correlations between dental anomalies and scoliosis? Conclusions: Until now, pediatric patients with scoliosis have been diagnosed, monitored, and treated with numerous independent specialist disciplines, such as pediatricians, orthopedic surgeons, neurosurgeons, and general practitioners with different radiological issues. The aim of this project is to reduce radiation and lower perioperative risks by creating a preoperative and follow-up-related standard protocol in close interdisciplinary and targeted cooperation between all the specialist disciplines involved. In line with the holistic examination approach, the associated accompanying diseases and developmental disorders such as dental and neuronal malformations will also be examined. On the one hand, CT-based questions could be replaced with the reconstruction of thin-slice MRI sequences. In addition, it may be possible to use the three-dimensional back scan as an intermediate diagnostic procedure instead of X-rays in the monitoring of severe scoliosis. Insofar as correlations or causalities between scoliosis and occlusal anomalies, early orthodontic intervention could positively benefit the duration of therapy at a later stage. [ABSTRACT FROM AUTHOR]

Published

2024

30. Impact of Proton Irradiation Depending on Breast Cancer Subtype in Patient-Derived Cell Lines.

Author

Musielak, Marika, Graczyk, Kinga, Liszka, Małgorzata, Christou, Athanasia, Rosochowicz, Monika A., Lach, Michał S., Adamczyk, Beata, Suchorska, Wiktoria M., Piotrowski, Tomasz, Stenerlöw, Bo, and Malicki, Julian

Subjects

*TRIPLE-negative breast cancer, *CANCER cells, *IONIZING radiation, *BREAST cancer, *CELL lines

Abstract

Simple Summary: Patient-specific factors must be thoroughly analyzed to minimize the side effects of applied treatments. This study examined the radiobiological response of established and patient-derived malignant cell lines, cancer-associated fibroblasts, and skin fibroblasts to proton irradiation (IRR). Using clonogenic assay, γH2AX, and p53 staining, it was found that breast cancer cell lines of different subtypes had similar responses. However, cancer-associated fibroblasts from TNBC tumors were more resistant than those from luminal A tumors. Skin fibroblasts responded uniformly across all doses. The responses of patient-derived cell lines suggested that each patient may have a distinct radiotherapy result due to specific tumor microenvironmental characteristics. Research on different types of ionizing radiation's effects has been ongoing for years, revealing its efficacy in damaging cancer cells. Solid tumors comprise diverse cell types, each being able to respond differently to radiation. This study evaluated the radiobiological response of established (MDA-MB-231 (Triple negative breast cancer, TNBC), MCF-7 (Luminal A)) and patient-derived malignant cell lines, cancer-associated fibroblasts, and skin fibroblasts following proton IRR. All cell line types were irradiated with the proton dose of 2, 4, and 6 Gy. The radiobiological response was assessed using clonogenic assay, γH2AX, and p53 staining. It was noticeable that breast cancer lines of different molecular subtypes displayed no significant variations in their response to proton IRR. In terms of cancer-associated fibroblasts extracted from the tumor tissue, the line derived from a TNBC subtype tumor demonstrated higher resistance to ionizing radiation compared to lines isolated from luminal A tumors. Fibroblasts extracted from patients' skin responded identically to all doses of proton radiation. This study emphasizes that tumor response is not exclusively determined by the elimination of breast cancer cells, but also takes into account tumor microenvironmental variables and skin reactions. [ABSTRACT FROM AUTHOR]

Published

2024

31. Sustainable Valorization of CO 2 through Nuclear Power-to-X Pathways.

Author

Ramirez-Corredores, Maria Magdalena

Subjects

*NUCLEAR power plants, *POWER resources, *TECHNOLOGICAL innovations, *CHEMICAL reactions, *IONIZING radiation, *NUCLEAR energy

Abstract

Some of the issues concerning energy security and climate change can be addressed by employing nuclear power (NP) to supply the energy required for the conversion of carbon dioxide (CO2) into chemicals, products, and materials. Nuclear energy represents a neutral carbon source that can be generated sustainably, reliably, and consistently. Nuclear power plants (NPPs) could supply energy in the form of heat, electricity, and ionizing radiation to drive CO2 chemical reactions underpinning NP-to-X type of pathways. CO2 conversion processes are either commercially available or emerging technologies at different developmental maturity stages. This work reviews the published literature (articles and patents) that reports R&D results and the understanding and development of chemical reactions and processes, as well as the efforts in integrating NPPs and chemical processes (CPs). As will be made evident, a new industrial era for the manufacturing of decarbonized chemicals, products, and materials will be possible by developing and implementing new (more energy- and carbon-efficient) processes responding to the NP-to-X pathways. This new decarbonizing platform not only contributes to achieving net zero goals but also broadens the NPP product beyond electricity. [ABSTRACT FROM AUTHOR]

Published

2024

32. Biomarkers of mitochondrial stress and DNA damage during pediatric catheter-directed neuroangiography – a prospective single-center study.

Author

Hogarth, Kaley A., Shkumat, Nicholas A., Goman, Simal, Amirabadi, Afsaneh, Bickford, Suzanne, Muthusami, Prakash, Connolly, Bairbre L., and Maynes, Jason T.

Subjects

*MONONUCLEAR leukocytes, *MITOCHONDRIAL DNA, *IONIZING radiation, *REACTIVE oxygen species, *MEMBRANE potential, *RADIATION exposure

Abstract

Background: Neuroangiography represents a critical diagnostic and therapeutic imaging modality whose associated radiation may be of concern in children. The availability of in vivo radiation damage markers would represent a key advancement for understanding radiation effects and aid in the development of radioprotective strategies. Objective: Determine if biomarkers of cellular damage can be detected in the peripheral blood mononuclear cells (PBMC) of children undergoing neuroangiography. Materials and methods: Prospective single-site study of 27 children. Blood collected pre and post neuroangiography, from which PBMC were isolated and assayed for biomarkers of mitochondrial stress (mitochondrial membrane potential (MMP), reactive oxygen species (ROS), and mitochondrial DNA (mtDNA)) and DNA damage (γH2AX). Dose response of biomarkers vs. radiation dose was analyzed using linear regressions. The cohort was divided into higher (HD) and lower dose (LD) groups and analyzed using linear mixed models and compared using Welch's t-tests. Results: No biomarker exhibited a dose-dependent response following radiation (γH2AX: R2 = 0.0012, P = 0.86; MMP: R2 = 0.016, P = 0.53; mtDNA: R2 = 0.10, P = 0.11; ROS: R2 = 0.0023, P = 0.81). Groupwise comparisons showed no significant differences in γH2AX or ROS after radiation (γH2AX: LD: 0.6 ± 6.0, P = 0.92; HD: -7.5 ± 6.3 AU, P = 0.24; ROS: LD: 1.3 ± 2.8, P = 0.64; HD: -3.6 ± 3.0 AU, P = 0.24). Significant changes were observed to mitochondrial markers MMP (-53.7 ± 14.7 AU, P = 0.0014) and mtDNA (-1.1 ± 0.4 AU, P = 0.0092) for HD, but not the LD group (MMP: 26.1 ± 14.7 AU, P = 0.090; mtDNA: 0.2 ± 0.4, P = 0.65). Conclusions: Biomarkers of mitochondrial stress in PBMC were identified during pediatric neuroangiography and warrant further investigation for radiation biodosimetry. However, isolating radiation-specific effects from those of procedural stress and general anesthesia requires further investigation. [ABSTRACT FROM AUTHOR]

Published

2024

33. Radiolytic Degradation of Ethylene Glycol and Glycerol in Aqueous Solutions.

Author

Kholodkova, E. M., Popova, A. V., Artamonova, K. A., and Ponomarev, A. V.

Subjects

*CHEMICAL oxygen demand, *ABSORBED dose, *AQUEOUS solutions, *IONIZING radiation, *ELECTRON beams

Abstract

The influence of absorbed dose (up to 90 kGy) and the initial concentrations of ethylene glycol and glycerol (from 30 to 250 mg/L) on their degradation in aqueous solutions under a 3-MeV electron beam has been studied. Aeration of the solutions during irradiation decreased the yield of degradation. In the absence of aeration, the observed initial yields of degradation were about 0.23 µmol/J for ethylene glycol and about 0.14 µmol/J for glycerol. Degradation products formed in aqueous solutions are more resistant to ionizing radiation compared to the parent alcohols. A simultaneous reduction in alcohol concentration and chemical oxygen demand (COD) to standard values was achieved in solutions with an initial concentration of 30–40 mg/L at a dose of no higher than 2–3 kGy. [ABSTRACT FROM AUTHOR]

Published

2024

34. Healthy worker hire and survivor effects in a cohort of medical radiation workers.

Author

Lee, Won Jin, Jeong, Jaeho, Bang, Ye Jin, and Kim, Young Min

Subjects

*OCCUPATIONAL exposure, *MALE employees, *RADIATION exposure, *HOSPITAL personnel, *CANCER-related mortality

Abstract

Background The healthy worker effect may distort the association between exposure and health effects in workers. However, few studies have investigated both the healthy worker hire and survival effects simultaneously, and they are limited to mortality studies in male workers. Methods We utilized a data set comprising South Korean diagnostic medical radiation workers registered in the National Dose Registry between 1996 and 2011, and merged it with mortality and cancer incidence data. Standardized mortality ratios (SMRs) and standardized incidence ratios (SIRs) were computed for comparison with the general population. To account for time-varying confounders influenced by prior occupational radiation exposure, we applied g-estimation using structural nested accelerated failure time models and compared the outcomes with those from Weibull regression. Results A total of 1831 deaths and 3759 first primary cancer cases were identified among 93 918 workers. Both male (SMR = 0.44; 95% CI: 0.42, 0.46) and female workers (SMR = 0.53; 95% CI: 0.46, 0.60) showed lower mortality rates compared with national rates. In the SIR analysis, male workers exhibited reduced risks of solid cancer whereas female workers had increased risks. The g-estimation-derived hazard ratios (HRs) from radiation exposure exceeded those from Weibull regression estimates for all-cause death (HR = 2.55; 95% CI: 1.97, 3.23) and all-cancer incidence (HR = 1.96; 95% CI: 1.52, 2.55) in male workers whereas female workers showed the opposite results. Conclusions Comprehensive consideration of the healthy worker effect by sex is essential for estimating the unbiased impact of occupational exposure on health outcomes, notably in studies focusing on male mortality. [ABSTRACT FROM AUTHOR]

Published

2024

35. Gamma irradiation effects on Eu(III) uptake by HDEHP-functionalized support materials.

Author

Borhan, Ridhita B., Thompson, Diana, and Bertelsen, Erin R.

Subjects

*GAMMA rays, *IONIZING radiation, *SOLVENT extraction, *PHOSPHORIC acid, *NITRIC acid

Abstract

Four chromatographic supports were functionalized with bis-(2-ethylhexyl) phosphoric acid (HDEHP) and examined for radiation stability when used for f-element separations after exposure to high levels of ionizing gamma radiation. Changes in Eu(III) partitioning were evaluated and compared to an analogous solvent extraction system using HDEHP in n-dodecane. The solvent extraction system showed an increase in Eu(III) uptake with increasing γ irradiation dose to the solvent in the presence of nitric acid. The Eu(III) distribution profiles indicate that the functionalized chromatographic support materials are less affected by γ irradiation, when exposed in a radiation environment of up to 2.5 MGy in the presence of nitric acid. [ABSTRACT FROM AUTHOR]

Published

2024

36. Ionizing radiation effects on blood-derived extracellular vesicles: insights into miR-34a-5p-mediated cellular responses and biomarker potential.

Author

Huber, Chiara, Elsaeed, Omar, Lahmer, Pia, and Moertl, Simone

Subjects

*MONONUCLEAR leukocytes, *IONIZING radiation, *RADIATION-induced bystander effect, *RADIATION exposure, *CELL communication

Abstract

Adverse effects of ionizing radiation on normal tissues limit the radiation dose in cancer treatment, thereby compromising treatment efficiency. Among the consistently affected non-cancer cells, peripheral blood mononuclear cells (PBMCs) exhibit high radiosensitivity and have the potential to induce systemic effects. PBMC-released extracellular vesicles (EVs), contribute to the communication of such systemic effects. This study aimed to investigate the effects of ionizing radiation on EVs as part of the systemic response of PBMCs in terms of microRNA cargo and biological functions. Therefore, whole blood samples from healthy donors were irradiated ex-vivo (0 Gy, 1 Gy, 2 Gy, 4 Gy) and EVs from PBMCs were isolated after 96 h by PEG precipitation or ultracentrifugation. Candidate microRNAs were examined in PBMC-derived EVs from individual donors. The uptake of membrane-stained fluorescent EVs by different recipient cells was quantified by fluorescence-activated cell sorting analysis. The biological effects of increased miR-34a-5p and of total EVs on recipient cells were assessed. Irradiation of PBMCs induced a dose-dependent upregulation of miR-34a-5p within EVs and PBMCs. However, interindividual differences between donors were noticed in the extent of upregulation, and small EVs displayed more pronounced changes in microRNA levels in comparison to large EVs. Irradiation in presence of the small molecule inhibitor KU-60019 demonstrated that this upregulation is dependent on ATM (Ataxia telangiectasia mutated) activation. Moreover, fibroblasts and keratinocytes were identified as preferred EV recipients. Increased miR-34a-5p levels led to a significant reduction in viability and induction of senescence in keratinocytes but not in fibroblasts, indicating a cell type-specific response. In conclusion, this study further elucidated the complex cellular response of normal tissue after radiation exposure. It confirmed radiation-induced modifications of microRNA expression levels in EVs from PBMCs and identified a robust upregulation of miR-34a-5p in the small EV subfraction, suggesting this microRNA as a potential novel candidate for the development of biomarkers for radiation exposure. Moreover, the different uptake efficiencies observed among specific cell types suggested that EVs induce cell type-specific responses in the intercellular communication of systemic radiation effects. [ABSTRACT FROM AUTHOR]

Published

2024

37. Efficient enhancement of the antimicrobial activity of Chlamydomonas reinhardtii extract by transgene expression and molecular modification using ionizing radiation.

Author

Dubey, Shubham Kumar, Lee, Seung Sik, and Kim, Jin-Hong

Subjects

*TRANSGENE expression, *ANTIMICROBIAL peptides, *IONIZING radiation, *CHLAMYDOMONAS reinhardtii, *PSEUDOMONAS syringae, *PHYTOPATHOGENIC bacteria, *CHLAMYDOMONAS, *ETHANOL

Abstract

Background: Ionizing radiation has been used for mutagenesis or material modification. The potential to use microalgae as a platform for antimicrobial production has been reported, but little work has been done to advance it beyond characterization to biotechnology. This study explored two different applications of ionizing radiation as a metabolic remodeler and a molecular modifier to enhance the antimicrobial activity of total protein and solvent extracts of Chlamydomonas reinhardtii cells. Results: First, highly efficient transgenic C. reinhardtii strains expressing the plant-derived antimicrobial peptides, AtPR1 or AtTHI2.1, were developed using the radiation-inducible promoter, CrRPA70Ap. Low transgene expression was significantly improved through X-irradiation (12–50 Gy), with peak activity observed within 2 h. Protein extracts from these strains after X-irradiation showed enhanced antimicrobial activity against the prokaryotic bacterium, Pseudomonas syringae, and the eukaryotic fungus, Cryptococcus neoformans. In addition, X-irradiation (12 Gy) increased the growth and biomass of the transgenic strains. Second, C. reinhardtii cell extracts in ethanol were γ-irradiated (5–20 kGy), leading to molecular modifications and increased antimicrobial activity against the phytopathogenic bacteria, P. syringae and Burkholderia glumae, in a dose-dependent manner. These changes were associated with alterations in fatty acid composition. When both transgenic expression of antimicrobial peptides and molecular modification of bioactive substances were applied, the antimicrobial activity of C. reinhardtii cell extracts was further enhanced to some extent. Conclusion: Overall, these findings suggest that ionizing radiation can significantly enhance the antimicrobial potential of C. reinhardtii through efficient transgene expression and molecular modification of bioactive substances, making it a valuable source of natural antimicrobial agents. Ionizing radiation can act not only as a metabolic remodeler of transgene expression in microalgae but also as a molecular modifier of the bioactive substances. [ABSTRACT FROM AUTHOR]

Published

2024

38. Study of Radiosensitivity and Induction of Radiation Adaptive Response in Peripheral Blood Lymphocytes of Patients with Oncological Diseases Using the Micronuclear Test.

Author

Balakin, V. E., Rozanova, O. M., Strelnikova, N. S., Smirnova, E. N., and Belyakova, T. A.

Subjects

*IONIZING radiation, *RADIATION tolerance, *LYMPHOCYTES, *CANCER patients, *NUCLEOLUS

Abstract

Radiosensitivity to low and medium doses of X-ray radiation and the ability to induce a radiation adaptive response (RAR) of lymphocytes during in vitro irradiation of peripheral blood of patients with cancer were studied. The criterion for cytogenetic damage was the frequency of micronuclei (MN) in cytochalasin-blocked binucleate lymphocytes in culture. It was found that the spontaneous level of cytogenetic damage in the lymphocytes of patients was 2.6 times higher than in healthy volunteers, and there was also significant interindividual variability in values compared to the control cohort. There were no differences in mean values for radiosensitivity to low and medium doses of X-ray between the study groups. There was no correlation between the spontaneous level of MN in lymphocytes and the radiosensitivity of individuals in both groups. RAR was induced with the same frequency and to the same extent in lymphocytes from both patients and healthy individuals. [ABSTRACT FROM AUTHOR]

Published

2024

39. Modulatory effect of the fruit rind extract of Garcinia indica Choisy against gamma radiation induced damage in human peripheral blood lymphocytes: a preliminary study.

Author

Baskaware, Siddhi V., Deodhar, Manjushri A., and Sharma, Narinder K.

Subjects

*FRUIT skins, *CHROMOSOME abnormalities, *GAMMA rays, *IONIZING radiation, *RADIATION damage

Abstract

Purpose: Nowadays people are exposed to radiation due to various reasons, including natural, diagnostic, occupational or accidental exposure. High level of exposure to ionizing radiation can be fatal to human body. Synthetic drugs used to prevent radiation-induced damage are toxic in nature. Recently, Herbal drugs are being screened as an alternative due to their mechanism of action. Garcinia indica (G. indica) is one of the traditional medicinal plant which contains phytochemicals having several medicinal properties. Materials and methods: In this study, G. indica extract was observed for its modulatory effect against 3 Gray (Gy) gamma radiation-induced damages in human peripheral blood lymphocytes. Various concentrations of G. indica extract ranging from 1 to 25 µg/mL was added to the blood post irradiation at 0 hr. Chromosomal aberration (CA) and Cytochalasin B blocked Micronuclei Cytome (CBMN) Assay were performed as per standard procedure. Results: Radiomodulatory effect of Garcinia indica fruit rind extract (GIFRE) on CA and MN formation was observed in this study. Treatment of GIFRE did not affect the mitotic index. Positive inhibition percentages for dicentrics, total chromosomal aberrations and micronuclei were observed except for one instance. Conclusion: Owing to the various properties of Garcinia extracts, it makes it a potential candidate to be tested for its radiomodulatory effect. Based on the results observed in this preliminary study, it could act as a radiomodulatory agent. Radiomodulatory effect of GIFRE could possibly serve it as a potential herbal medicinal alternative to current drugs. However, results of this study need to be validated on larger sample size. [ABSTRACT FROM AUTHOR]

Published

2024

40. Recurrent medical imaging exposures for the care of patients: one way forward.

Author

Frush, Donald Paul, Vassileva, Jenia, Brambilla, Marco, Mahesh, Mahadevappa, Rehani, Madan, Samei, Ehsan, Applegate, Kimberly, Bourland, John, Ciraj-Bjenlac, Olivera, Dahlstrom, Danielle, Gershan, Vesna, Gilligan, Paddy, Godthelp, Barbara, Hjemly, Hakon, Kainberger, Franz, Mikhail-Lette, Miriam, Holmberg, Ola, Paez, Diana, Schrandt, Suz, and Valentin, Andreas

Subjects

*IONIZING radiation, *RADIATION exposure, *RADIATION protection, *DIAGNOSTIC imaging, *PHYSICISTS

Abstract

Medical imaging is both valuable and essential in the care of patients. Much of this imaging depends on ionizing radiation with attendant responsibilities for judicious use when performing an examination. This responsibility applies in settings of both individual as well as multiple (recurrent) imaging with associated repeated radiation exposures. In addressing the roles and responsibilities of the medical communities in the paradigm of recurrent imaging, both the International Atomic Energy Agency (IAEA) and the American Association of Physicists in Medicine (AAPM) have issued position statements, each affirmed by other organizations. The apparent difference in focus and approach has resulted in a lack of clarity and continued debate. Aiming towards a coherent approach in dealing with radiation exposure in recurrent imaging, the IAEA convened a panel of experts, the purpose of which was to identify common ground and reconcile divergent perspectives. The effort has led to clarifying recommendations for radiation exposure aspects of recurrent imaging, including the relevance of patient agency and the provider-patient covenant in clinical decision-making. Clinical relevance statement: An increasing awareness, generating some lack of clarity and divergence in perspectives, with patients receiving relatively high radiation doses (e.g., ≥ 100 mSv) from recurrent imaging warrants a multi-stakeholder accord for the benefit of patients, providers, and the imaging community. Key Points: • Recurrent medical imaging can result in an accumulation of exposures which exceeds 100 milli Sieverts. • Professional organizations have different perspectives on roles and responsibilities for recurrent imaging. • An expert panel reconciles differing perspectives for addressing radiation exposure from recurrent medical imaging. [ABSTRACT FROM AUTHOR]

Published

2024

41. The role of advanced metal artifact reduction MRI in the diagnosis of periprosthetic joint infection.

Author

Sacher, Sara E., Koff, Matthew F., Tan, Ek T., Burge, Alissa, and Potter, Hollis G.

Subjects

*JOINT infections, *PROSTHESIS-related infections, *MAGNETIC resonance imaging, *IONIZING radiation, *DIAGNOSIS, *DIAGNOSTIC imaging

Abstract

Identification and diagnosis of periprosthetic joint infection (PJI) are challenging, requiring a multi-disciplinary approach involving clinical evaluation, laboratory tests, and imaging studies. MRI is advantageous to alternative imaging techniques due to superior soft tissue contrast and absence of ionizing radiation. However, the presence of metallic implants can cause signal loss and artifacts. Metal artifact suppression (MARS) MRI techniques have been developed that mitigate metal artifacts and improve periprosthetic soft tissue visualization. This paper provides a review of the various MARS MRI techniques, their clinical applicability and accuracy in PJI diagnosis and evaluation, and current challenges and future perspectives. [ABSTRACT FROM AUTHOR]

Published

2024

42. Studies on the effect of curcumin and quercetin in the liver of male albino rats exposed to gamma irradiation.

Author

El-Hady, Amr M. Abd, Azzoz, Rady M., Soliman, Saeed M., Abdelrahman, Ibrahim Y., Khalil, Wafaa M., and Ali, Said A.

Subjects

*BLOOD cell count, *QUERCETIN, *CURCUMIN, *GAMMA rays, *BLOOD proteins, *IONIZING radiation

Abstract

Ionizing radiation produces deleterious effects on living organisms. The present investigation has been carried out to study the prophylactic as well as the therapeutic effects of treated rats with quercetin (Quer) and curcumin (Cur), which are two medicinal herbs known for their antioxidant activities against damages induced by whole-body fractionated gamma irradiation. Exposure of rats to whole-body gamma irradiation induced a significant decrease in erythrocyte (RBC), leukocyte (WBCs), platelet count (Plt), hemoglobin concentration (Hb), hematocrit (Hct %), mean erythrocyte hemoglobin (MCH), mean corpuscular hemoglobin concentration (MCHC), and mean erythrocyte volume (MCV); a high increase in plasma thiobarbituric acid reactive substances (TBARS); a nonsignificant statistical decrease in the mean value of serum glutathione (GSH); a significant increase in plasma alanine transferase (ALT), aspartate transferase (AST), alkaline phosphates (ALP), serum total protein, serum total cholesterol levels, total triglycerides levels, high-density lipoprotein (HDL), and low-density lipoprotein (LDL) levels; and with marked histological changes and structural changes measured by Fourier transform infrared (FTIR). Applying both quercetin and curcumin pre- and postexposure to gamma radiation revealed a remarkable improvement in all the studied parameters. The cellular damage by gamma radiation is greatly mitigated by the coadministration of curcumin and quercetin before radiation exposure. [ABSTRACT FROM AUTHOR]

Published

2024

43. Comparing the biological effectiveness of low energy 100 kV and high energy 5 MeV X-rays against Oriental fruit fly (Diptera: Tephritidae).

Author

Follett, Peter A, Fezza, Thomas J, Ladizinsky, Nicolas C, and Liang, Pei-Shih

Subjects

ENERGY levels (Quantum mechanics), IONIZING radiation, RADIATION sources, IONIZATION chambers, INSECT pests, ORIENTAL fruit fly

Abstract

Radioisotope irradiators (using cesium-137 or cobalt-60) are used as sources of ionizing radiation to control quarantine or phytosanitary insect pests in internationally traded fresh commodities and to sterilize insects used in sterile insect release programs. There are institutional initiatives to replace isotopic irradiators (producing γ-rays) with lower-energy X-ray machines due to concerns about radiological terrorism and increasingly stringent regulations on the movement of radioisotopes. Questions remain about whether the biological effects of low-energy X-rays are comparable to those of γ-rays since differences in energy levels and dose rates of X-rays may have different efficacies. We compared adult emergence, flight ability, and adult survival in the Oriental fruit fly, Bactrocera dorsalis (Hendel) (Diptera: Tephritdae), after irradiation of third instar larvae with 100 kV or 5 MeV (5,000 kV) X-rays at 20 and 40 Gy in replicated studies. At 20 Gy, the adult emergence rate was significantly lower after irradiation with 100 kV compared to 5 MeV X-rays, suggesting higher efficacy at the lower energy level. In a follow-up study using 100 kV X-rays, applying 20 Gy using a slow dose rate (0.24 Gy min−1) resulted in significantly higher adult emergence than did a fast dose rate (3.3 Gy min−1), suggesting lower efficacy. Although our study suggests higher efficacy of low energy 100 kV X-rays, there is uncertainty in measuring the dose from an X-ray tube operating at 100 kV using an ionization chamber; we discuss how this uncertainty may change the interpretation of the results. Using a 100 kV X-ray irradiator to develop a phytosanitary treatment may underestimate the dose required for insect control using commercial high-energy γ-ray or X-ray systems. [ABSTRACT FROM AUTHOR]

Published

2024

44. Ligustilide, A Novel Senolytic Compound Isolated from the Roots of Angelica Acutiloba.

Author

Takaya, Kento and Kishi, Kazuo

Subjects

SKIN aging, TREATMENT effectiveness, FIBROBLASTS, IONIZING radiation, PLANT extracts, WRINKLES (Skin)

Abstract

Senescent cells accumulate with age and contribute to age‐related diseases and organ dysfunctions. Early evidence suggests that removal of senescent cells using senolytic drugs improves the aging phenotype in mice and may improve the health of individuals with chronic diseases. Signs of skin aging, including wrinkles, and sagging, occur largely due to the accumulation of senescent fibroblasts within the dermis; However, there is currently no skin treatment that eliminates senescent cells. In this study, human fibroblasts subjected to replicative aging and ionizing radiation exposure are used to screen plant extracts for potential senescent cell‐destructive and/or senescent cell‐forming activities. Angelica acutiloba—a traditional Chinese herbal medicine—selectively kills senescent cells without affecting the proliferating cells. Among the major components of this herb, ligustilide shows promising senescent cell‐destructive properties, and selectively eliminates senescent cells by inducing an apoptosis. Moreover, ligustilide markedly inhibits senescence‐associated secretory phenotypes. Administration of ligustilide to mouse skin eliminates senescent cells and increases dermal collagen density and subcutaneous adipose tissue content; it selectively promotes death of senescent cells without affecting non‐senescent cells. These results provide evidence that a natural compound—ligustilide—may exhibit therapeutic effects on the skin aging phenotype by specifically inducing apoptosis in senescent cells. [ABSTRACT FROM AUTHOR]

Published

2024

45. Understanding the Ageing Processes of Electrolytes in Aqueous Magnesium Batteries Using Radiation Chemistry.

Author

Paillot, Malaurie, Wong, Alan, Denisov, Sergey A., Dognon, Jean‐Pierre, Mostafavi, Mehran, Gauthier, Magali, and Le Caër, Sophie

Subjects

RADIATION chemistry, ENERGY dissipation, CLEAN energy, IONIZING radiation, AQUEOUS electrolytes

Abstract

Manufacturing aqueous batteries based on the magnesium cations is an important step towards more sustainable and safer energy storage solutions. Thus, it is important to understand how these systems age and which species are formed throughout numerous charge/discharge cycles. To this end, we have used radiolysis to induce accelerated ageing in concentrated aqueous solutions of magnesium bistriflimide Mg(TFSI)2 (also called "water‐in‐salt electrolytes" or WISEs). We demonstrate in this work that the degradation products formed, whether in the gas or liquid phase, are very similar to those formed in concentrated LiTFSI aqueous solutions. In fact, the behavior under ionizing radiation is driven by the anion/water molar ratio regardless of whether the cation is Li+ or Mg2+. This is because both cations are non‐reactive, and the bond strengths in the TFSI− anion do not vary with the nature of the cation. Reaction mechanisms are proposed to explain the formation of several species under ionizing radiation. [ABSTRACT FROM AUTHOR]

Published

2024

46. The potential longevity-promoting hypoxic-hypercapnic environment as a measure for radioprotection.

Author

David, Elroei, Wolfson, Marina, Muradian, Khachik K., and Fraifeld, Vadim E.

Abstract

Many biological mechanisms of aging well converge with radiation's biological effects. We used scientific insights from the field of aging to establish a novel hypoxic-hypercapnic environment (HHE) concept for radioprotection. According to this concept, HHE which possesses an anti-aging and longevity-promoting potential, should also act as a radiomitigator and radioprotector. As such, it might contribute greatly to the safety and wellbeing of individuals exposed to high levels of radiation, whether in planned events (e.g. astronauts) or in unplanned events (e.g. first responders in nuclear accidents). [ABSTRACT FROM AUTHOR]

Published

2024

47. Phytosanitary irradiation as an effective treatment for Drosophila suzukii.

Author

Gomes, Inajara V., Sobreira, Augusto C. F. P., Aguilar, Jhonatan S., Carrera, Lissette G., Andrade, Jennifer L., Caceres, Carlos, Vreysen, Marc J. B., Stauffer, Christian, Myers, Scott W., and Dias, Vanessa S.

Abstract

Drosophila suzukii is a pest native to Southeast Asia that causes significant economic losses to soft fruit crops. Phytosanitary irradiation is a promising treatment for D. suzukii hosts; yet an internationally recognized irradiation protocol is lacking. To fulfil specific requirements for proposing an irradiation treatment for D. suzukii, naturally infested blueberries and cherries containing a total of 37,489 late pupae were irradiated with a maximum absorbed dose of 80 Gy. Infested hosts containing a total of 9578 late pupae were considered unirradiated controls. Prevention of egg laying by females that emerged from treated pupae was considered the treatment endpoint. The fecundity and egg viability of females that emerged from treated pupae mated with their siblings were evaluated using blueberries. While females from unirradiated pupae laid a total of 43,142 eggs, no egg was laid by females that emerged from irradiated pupae. In addition, 1-day-old adults were irradiated with nominal doses of 20 and 72 Gy to evaluate whether egg laying could be prevented in flies emerging before the irradiation treatment. Females irradiated with 72 Gy laid eggs that did not hatch. Our findings suggest the minimum absorbed dose of 80 Gy as a phytosanitary irradiation treatment against D. suzukii and may support its inclusion as a treatment option in the annex of the International Standard for Phytosanitary Measures 28 (ISPM 28). [ABSTRACT FROM AUTHOR]

Published

2024

48. Heterogeneous expression of the atypical chemokine receptor ACKR3 in glioblastoma patient-derived tissue samples and cell cultures.

Author

Isci, Damla, Kuppens, Amandine, Scalisi, Joshua, Cokaiko, Julie, D'Uonnolo, Giulia, Wantz, May, Szpakowska, Martyna, Chevigné, Andy, Rogister, Bernard, and Neirinckx, Virginie

Subjects

*GLIOMAS, *CYTOLOGY, *CELL migration, *GENE expression, *IONIZING radiation, *CHEMOKINE receptors

Abstract

Glioblastoma (GBM) is the most aggressive glial tumor of the adult brain, associated with invariably fatal outcome, and a deeper understanding of the underlying malignant mechanisms is necessary to address the current therapeutic failure. We previously demonstrated the role of the CXCL12/CXCR4 axis in GBM cell migration and resistance to ionizing radiation. The atypical chemokine receptor ACKR3, responsible for CXCL12 scavenging, was previously suggested as additional important player in the context of GBM. Following validation of the detection tools, we observed that ACKR3 is expressed within GBM patient tumor tissue, distributed in diverse cell types. In contrast to CXCR4, ACKR3 expression in patient-derived stem-like cells (GSCs) remains however low, while ACKR3 gene expression by tumor cells appears to be modulated by the in-vivo environment. Using overexpression models, we also showed that in vitro ACKR3 had no significant direct effect on cell proliferation or invasion. Altogether, these results suggest that in vitro ACKR3 plays a minor role in malignant GBM cell biology and that its expression is possibly regulated by in-vivo influences. The subtle and multifaceted functions ACKR3 could exert in GBM should therefore only be tackled within a comprehensive tumor microenvironment considering tumoral but also non-tumoral cells. [ABSTRACT FROM AUTHOR]

Published

2024

49. Studies on the role of moderate doses of ionizing radiation-induced cellular senescence in mouse lung tissue.

Author

Zhang, Lingyu, Cai, Lina, Cai, Yashi, Ke, Weiyi, Zhou, Linqian, Yang, Yuhua, Huang, Weixu, Zou, Jianming, and Chen, Huifeng

Subjects

*O6-Methylguanine-DNA Methyltransferase, *CELLULAR aging, *DNA repair, *IONIZING radiation, *DNA damage, *DOSE-response relationship (Radiation)

Abstract

AbstractPurposeMaterial and methodsResultsConclusionsTo investigate the role of moderate doses of ionizing radiation-induced cellular senescence in mouse lung tissue and whole-body inflammation levels.Forty-two C57BL/6J mice were randomly divided into the control group, the 1, 3, and 7 days after 2 Gy irradiation group, and the 1, 3, and 7 days after 4 Gy irradiation group, with six mice in each group. The histopathology, cellular senescence, oxidative-antioxidant, DNA damage repair, and inflammation-related indicators of irradiated mice were examined.Compared with the control group, the histopathological scores, the positive area of senescence-associated-β-galactosidase (SA-β-Gal) staining, and the mRNA levels of senescence-related genes in the lung tissues in all dose groups increased on 1, 3, and 7 days after irradiation. In peripheral blood, erythrocytes, leukocytes, platelets, hemoglobin, 8-hydroxydeoxyguanosine (8-OHdG), C-reactive protein, and other indicators showed a different trend in all dose groups. The levels of malondialdehyde(MDA), superoxide dismutase (SOD), glutathione (GSH), and 8-OHdG in the lung tissue showed different trends after 2 Gy and 4 Gy irradiation. The 8-Oxoguanine DNA glycosylase 1 (hOGG1) and O-6-methylguanine-DNA methyltransferase (MGMT) mRNA levels showed a trend of increasing and then decreasing. The levels of whole-body inflammation were significantly correlated with the levels of indicators related to cellular senescence and damage repair in the lung tissue of mice.The moderate doses of ionizing radiation induce oxidative stress, and DNA damage and increase DNA repair gene expression in mouse lung tissue. The lung tissue cellular senescence correlates with the level of whole-body inflammation. [ABSTRACT FROM AUTHOR]

Published

2024

50. 3D printing of realistic body phantoms: Comparison of measured and simulated organ doses on the example of a CT scan on a pregnant woman.

Author

Kunert, Patrizia, Schlattl, Helmut, Trinkl, Sebastian, Honorio da Silva, Edilaine, Reichert, Detlef, and Giussani, Augusto

Subjects

*MONTE Carlo method, *FETAL tissues, *IONIZING radiation, *COMPUTED tomography, *THREE-dimensional printing

Abstract

Background Purpose Materials and methods Results Conclusion Medical examinations or treatment of pregnant women using ionizing radiation are sometimes unavoidable. In such cases, the risk of harm to the embryo and fetus after exposure to ionizing radiation must be carefully estimated. However, no commercially available anthropomorphic body phantoms of pregnant women are available for dose measurements. A promising possibility for the production of body phantoms for patient groups that are not adequately represented by the phantoms of reference persons is 3D printing. However, this approach is still in the evaluation phase.To print the abdomen of a woman in the late stage of pregnancy and compare the dose distribution measured using thermoluminescence dosimeters (TLDs) in the printed phantom for two different computed tomography (CT) protocols with the corresponding results of Monte Carlo simulations on voxel models of the pregnant woman.The physical phantom was produced through multi‐material extrusion printing using different print materials identified in previous studies to simulate homogeneous soft tissues and the mean compositions of maternal and fetal bones. The 3D printed abdomen was combined with a conventionally produced anthropomorphic female phantom to obtain a whole‐body phantom of a pregnant woman. Dose values resulting from two different CT scans acquired at tube voltages of 80 and 120 kV were measured using TLDs positioned in the physical phantom and cross‐validated with the results of Monte Carlo simulations performed for two different voxel models. The first was a voxelized model of the produced phantom itself and the second a realistic digital model of a pregnant woman. Representative CT values of the materials used in the printed phantom were determined from the acquired CT images.The CT values of maternal and fetal tissue structures in the phantom are comparable to CT values of real human tissues. The difference between most organ doses measured in the 3D printed phantom and simulated in the voxel models was below 20% and equivalent within the measurement uncertainties. Only the dose to the fetal head was up to 50% higher and not equivalent for the realistic model and the 80 kV‐protocol. As expected, the agreement was better for the voxelized than for the realistic model. For both models a slight energy dependence was observed, with larger deviations for the 80‐kV protocol especially for organs located in the pelvic region.Individualized physical body phantoms, such as that of a pregnant woman, can be produced using 3D printing. The good agreement between measured and simulated doses to the fetus cross‐validates both dosimetric methods. Therefore, this study demonstrates the suitability of 3D printing phantoms for patients not adequately represented by commercially available body phantoms of reference persons. [ABSTRACT FROM AUTHOR]

Published

2024