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- Andreassi, Maria Grazia, et al.
(författare)
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A Longitudinal Study of Individual Radiation Responses in Pediatric Patients Treated with Proton and Photon Radiotherapy, and Interventional Cardiology : Rationale and Research Protocol of the HARMONIC Project
- 2023
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Ingår i: International Journal of Molecular Sciences. - : MDPI AG. - 1661-6596 .- 1422-0067. ; 24:9, s. 8416-
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Tidskriftsartikel (refereegranskat)abstract
- The Health Effects of Cardiac Fluoroscopy and Modern Radiotherapy (photon and proton) in Pediatrics (HARMONIC) is a five-year project funded by the European Commission that aimed to improve the understanding of the long-term ionizing radiation (IR) risks for pediatric patients. In this paper, we provide a detailed overview of the rationale, design, and methods for the biological aspect of the project with objectives to provide a mechanistic understanding of the molecular pathways involved in the IR response and to identify potential predictive biomarkers of individual response involved in long-term health risks. Biological samples will be collected at three time points: before the first exposure, at the end of the exposure, and one year after the exposure. The average whole-body dose, the dose to the target organ, and the dose to some important out-of-field organs will be estimated. State-of-the-art analytical methods will be used to assess the levels of a set of known biomarkers and also explore high-resolution approaches of proteomics and miRNA transcriptomes to provide an integrated assessment. By using bioinformatics and systems biology, biological pathways and novel pathways involved in the response to IR exposure will be deciphered.
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| 3. |
- Sangsuwan, Traimate, 1981-, et al.
(författare)
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Oxidative Stress Levels and DNA Repair Kinetics in Senescent Primary Human Fibroblasts Exposed to Chronic Low Dose Rate of Ionizing Radiation
- 2023
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Ingår i: Frontiers in Bioscience Landmark. - 2768-6701. ; 28:11
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Tidskriftsartikel (refereegranskat)abstract
- Background: Exposure to low dose rate (LDR) radiation may accelerate aging processes. Previously, we identified numerous LDR-induced pathways involved in oxidative stress (OS) and antioxidant systems, suggesting that these pathways protect against premature senescence (PS). This study aimed to investigate if there are differences between young replicative senescent (RS) and PS cells considering DNA repair kinetics, OS, and DNA damage localized in the telomeres. Methods: We established PS cells by culturing and passaging young primary fibroblasts exposed to LDR. Then, RS cells were established by culturing and passaging young fibroblasts until they stopped proliferating. Senescence was characterized by analyzing telomere length and senescence-associated β-galactosidase (SA-β-gal) staining. DNA damage and repair were evaluated with γH2AX foci formation; telomere identification was carried out using the fluorescence in situ hybridization (FISH) probe; and oxidative stress was assessed by measuring 8-oxo-dG in the medium. Results: The data indicate the following: young cells have a better ability to cope with LDR-induced oxidative stress; RS and PS have higher steady-state levels of DNA damage; RS have slower DNA repair kinetics; and PS/RS have elevated levels of telomeric DNA damage. Conclusion: Our main conclusion is that PS and RS differ regarding DNA repair kinetics and SA-β-gal levels.
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