These articles have been researched and written by members of CHRC.
All manuscripts were scrutinised by several experts in the field before publication to ensure scientific rigour and to meet editorial standards of the scientific Journal.
The psychological consequences of (perceived) ionizing radiation exposure: a review on its role in radiation-induced cognitive dysfunction.
Exposure to ionizing radiation following environmental contamination (e.g., the Chernobyl and Fukushima nuclear accidents), radiotherapy and diagnostics, occupational roles and space travel has been identified as a possible risk-factor for cognitive dysfunction. The deleterious effects of high doses (≥1.0 Gy) on cognitive functioning are fairly well-understood, while the consequences of low (≤0.1 Gy) and moderate doses (0.1–1.0 Gy) have been receiving more research interest over the past decade. In addition to any impact of actual exposure on cognitive functioning, the persistent psychological stress arising from perceived exposure, particularly following nuclear accidents, may itself impact cognitive functioning. In this review we offer a novel interdisciplinary stance on the cognitive impact of radiation exposure, considering psychological and epidemiological observations of different exposure scenarios such as atomic bombings, nuclear accidents, occupational and medical exposures while accounting for differences in dose, rate of exposure and exposure type. The purpose is to address the question that perceived radiation exposure - even where the actual absorbed dose is 0.0 Gy above background dose - can result in psychological stress, which could in turn lead to cognitive dysfunction. In addition, we highlight the interplay between the mechanisms of perceived exposure (i.e., stress) and actual exposure (i.e., radiation-induced cellular damage), in the generation of radiation-induced cognitive dysfunction. In all, we offer a comprehensive and objective review addressing the potential for cognitive defects in the context of low- and moderate-dose IR exposures. Click here to read a lay summary
Reference: Collett, G., Kai, C., William, Y., Mary, G. and Anderson, R. (2020) 'The psychological consequences of (perceived) ionizing radiation exposure: a review on its role in radiation-induced cognitive dysfunction.'. International Journal of Radiation Biology. pp. 1 - 56. ISSN: 0955-3002
Meeting Report of the 16th International Congress of Radiation Research and the 12th International Symposium on Chromosomal Aberrations.
The Association for Radiation Research (ARR), on behalf of the International Association for Radiation Research (IARR), hosted the 16th International Congress of Radiation Research in Manchester, UK from 25th—29th August 2019. A total of 1008 delegates joined us for this 4-yearly premier radiation research event to share new research around the thematic areas of Basic Mechanisms, Translational Research, Radiotherapy and, Health Effects and Ecology. The meeting was a great success with quality presentations, in-depth workshops on defined topics and fun social events throughout. A key goal of the ARR and IARR is to promote careers of future radiation researchers and so it is of note that around a quarter of our attendees were 'scholars-in-training', all of whom contributed to the overall success of the programme as Session Chairs and with high quality presentations. The meeting venue 'Manchester Central' provided excellent facilities creating a relaxed environment for science-in-action; collaborative discussion with friends old and new. Outside, historic Manchester shone in the brilliant sunshine of an August heatwave proudly displaying itself as a modern, fun and vibrant city for all. In this Report, we focus on Theme 4 Health Effects and Ecology and, the satellite workshop International Symposium on Chromosomal Aberrations (ISCA).
Reference: Anderson, R., Williams, K., Jeggo, P., Hammond, E., West, C. and Badie, C. (2020) 'Meeting Report of the 16th International Congress of Radiation Research and the 12th International Symposium on Chromosomal Aberrations.'. Journal of Radiological Protection, 40 (1). pp. 361 - 365. ISSN: 0952-4746
Meeting report on ICRR2019, the 16th International Congress on Radiation Research.
The 16th International Congress of Radiation Research (ICRR2019) was held in Manchester, UK, in August 2019. The Congress, which is held every four years, covered a wide spectrum of topics relevant for all aspects of radiation research including basic mechanisms, translational research, radiotherapy and health effects, and ecology. Here, we provide a report of the plenary and keynote talks presented at the meeting.
Reference: Williams, KJ., Hammond, EM., West, C., Anderson, RM., Badie, C. and Jeggo, PA. (2019) 'Meeting Report on ICRR2019, the 16th International Congress on Radiation Research'. International Journal of Radiation Biology, 96 (2). pp. 167 - 171. ISSN: 0955-3002
DNA Damage Processing is Perturbed in Both Proliferative and Non-Proliferative Cells of Increased Chronological Cellular Age.
p53BP1 forms discrete foci within minutes of radiation exposure, at sites of DNA double-strand breaks, which ordinarily decay to background levels within 24 h of induction. Longer lived, persisting 53BP1 foci are thought to mark unrepaired or misrepaired damage and potentially, to be associated with genomic instability. It is known that repair of DNA damage is impaired in senescent (permanently arrested) and aged cells. We examined this further by measuring the induction and persistence of 53BP1 foci in proliferating and non-proliferating mid-passage (non-aged) and late-passage (in vitro aged) normal human bronchial epithelial cells. Our results showed background levels of 53BP1 foci to be elevated in in vitro aged cultures as expected and induction of 53BP1 foci after radiation exposure to be independent of culture age or proliferative status. In terms of 53BP1 decay, more cells with persisting foci were seen in in vitro aged cultures compared to non-aged populations; furthermore, this was observed in both non-cycling (nominally senescent) cells, as well as in actively proliferating cells. In conclusion, perturbation in radiation-induced damage processing is a function of increasing chronological cellular age per se and should be considered when extrapolating experimental data for radiation risk modeling.
Reference: Sabin, R., Pucci, G. and Anderson, RM. (2019) 'DNA damage processing is perturbed in both proliferative and non-proliferative cells of increased chronological cellular age.'. Radiation Research, 19 (2). pp. 200 - 207. ISSN: 0033-7587
Cytogenetic Biomarkers of Radiation Exposure.
Biological monitoring of radiation exposure relies heavily on the quantification of chromosome aberrations such as dicentrics and reciprocal translocations in the peripheral blood lymphocytes of exposed and potentially exposed subjects. The differences in the spatial deposition of energy and the quality of damage initially induced between individual low- and high-linear energy transfer (LET) radiation tracks are known to impact dramatically on the type and complexity of chromosome aberration induced. Over the years, researchers have proposed numerous cytogenetic markers and signatures based on these differences with the aim of biologically discriminating exposure to radiation of varying qualities. Complex chromosome aberrations are a broad classification of aberration types that are known to be characteristically induced after low doses of high-LET. The mechanistic basis for complex aberration formation and the potential applicability of these complex aberration products as LET-specific biomarkers are considered.
Reference: Anderson, RM. (2019) 'Cytogenetic biomarkers of radiation exposure'. Clinical Oncology, 31 (5). pp. 311 - 318. ISSN: 1433-2981