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Artykuły w czasopismach na temat „Medical radiation science”

Autor: Grafiati
Data publikacji: 4 czerwca 2021
Data aktualizacji: 30 stycznia 2023

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1

Denham, Gary, Carla Allen, and Jane Platt. "International collaboration in medical radiation science." Journal of Medical Radiation Sciences 63, no. 2 (February 19, 2016): 75–80. http://dx.doi.org/10.1002/jmrs.158.

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Timmins, A. E. "Radiation Protection in Hospitals: Medical Science Series." Physics Bulletin 37, no. 5 (May 1986): 223. http://dx.doi.org/10.1088/0031-9112/37/5/027.

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Currie, Geoffrey M. "Impact Factors in Medical Radiation Science Journals." Journal of Medical Imaging and Radiation Sciences 45, no. 2 (June 2014): 70–71. http://dx.doi.org/10.1016/j.jmir.2014.06.001.

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Currie, Geoff, Nick Woznitza, Amanda Bolderston, Adam Westerink, Julia Watson, Charlotte Beardmore, Lisa Di Prospero, Carly McCuaig, and Julie Nightingale. "Twitter Journal Club in Medical Radiation Science." Journal of Medical Imaging and Radiation Sciences 48, no. 1 (March 2017): 83–89. http://dx.doi.org/10.1016/j.jmir.2016.09.001.

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Stern, Robert G. "Medical Radiation Safety: Rational Policy, Irrational Science." American Journal of Medicine 125, no. 8 (August 2012): 730–31. http://dx.doi.org/10.1016/j.amjmed.2012.01.010.

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Shanahan, Madeleine, Anthony Herrington, and Jan Herrington. "The Internet and the medical radiation science practitioner." Radiography 15, no. 3 (August 2009): 233–41. http://dx.doi.org/10.1016/j.radi.2008.05.002.

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Shanahan, Madeleine, Anthony Herrington, and Jan Herrington. "Professional reading and the Medical Radiation Science Practitioner." Radiography 16, no. 4 (November 2010): 268–78. http://dx.doi.org/10.1016/j.radi.2010.05.007.

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Greene, L. R., and K. M. Spuur. "Undergraduate use of medical radiation science mobile applications." Radiography 24, no. 4 (November 2018): 352–59. http://dx.doi.org/10.1016/j.radi.2018.04.012.

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Poudel, Parashu Ram. "Physics in Medical Science." Himalayan Physics 2 (July 31, 2011): 43–46. http://dx.doi.org/10.3126/hj.v2i2.5210.

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The domain of Physics covers vast area of scientific knowledge. Basic research on assemblies of atomic or nuclear radiation and gyromagnetic moments led to powerful technique for studying molecular structure as well as solid lattices. It led to invention and development of modern medical diagnostic and theraputic tools which have revolutionized the medical practices. Advancement in medical researches as seen today will be well-nigh impossible without the use of the finding of Physics. The funding made on Physics is in fact another way of funding made on human health.Keywords: Radioactivity; Cr
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10

Mdletshe, Sibusiso, Marcus Oliveira, and Bhekisipho Twala. "Enhancing medical radiation science education through a design science research methodology." Journal of Medical Imaging and Radiation Sciences 52, no. 2 (June 2021): 172–78. http://dx.doi.org/10.1016/j.jmir.2021.01.005.

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Bamba, A., V. Bamba, Y. Chen, Y. Deng, L. Li, W. Ruan, Y. Zhang, and E. Caruana. "Why do students choose the medical radiation science profession?" Radiographer 55, no. 2 (August 2008): 27–33. http://dx.doi.org/10.1002/j.2051-3909.2008.tb00084.x.

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Thompson, Nadine, Sarah Lewis, Patrick Brennan, and John Robinson. "Information literacy skills: Medical radiation science students and the internet." European Journal of Radiography 1, no. 2 (June 2009): 43–47. http://dx.doi.org/10.1016/j.ejradi.2009.07.001.

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Lyall, DG, and Y. Surjan. "Communication and electronic access - medical radiation science clinical centres' perspective." Radiographer 55, no. 3 (December 2008): 18–21. http://dx.doi.org/10.1002/j.2051-3909.2008.tb00089.x.

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Yasui, Kiyotaka, Yuko Kimura, Kenji Kamiya, Rie Miyatani, Naohiro Tsuyama, Akira Sakai, Koji Yoshida, et al. "Academic Responses to Fukushima Disaster." Asia Pacific Journal of Public Health 29, no. 2_suppl (March 2017): 99S—109S. http://dx.doi.org/10.1177/1010539516685400.

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Since radiation accidents, particularly nuclear disasters, are rarer than other types of disasters, a comprehensive radiation disaster medical curriculum for them is currently unavailable. The Fukushima compound disaster has urged the establishment of a new medical curriculum in preparation for any future complex disaster. The medical education will aim to aid decision making on various health risks for workers, vulnerable people, and residents addressing each phase in the disaster. Herein, we introduce 3 novel educational programs that have been initiated to provide students, professionals, a
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15

Shields, Melissa, Daphne James, Lynne McCormack, and Helen Warren-Forward. "Burnout in the disciplines of medical radiation science: A systematic review." Journal of Medical Imaging and Radiation Sciences 52, no. 2 (June 2021): 295–304. http://dx.doi.org/10.1016/j.jmir.2021.04.001.

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Lewis, S. J., and J. W. Robinson. "Role model identification by medical radiation science practitioners—a pilot study." Radiography 9, no. 1 (February 2003): 13–21. http://dx.doi.org/10.1016/s1078-8174(02)00077-9.

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Sim, Jenny, and Alex Radloff. "Profession and professionalisation in medical radiation science as an emergent profession." Radiography 15, no. 3 (August 2009): 203–8. http://dx.doi.org/10.1016/j.radi.2008.05.001.

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Lumsden, Renata, and Susie Schofield. "Perceptions of Educational Climate in a Canadian Medical Radiation Science Programme." Journal of Medical Imaging and Radiation Sciences 42, no. 3 (September 2011): 124–29. http://dx.doi.org/10.1016/j.jmir.2011.06.002.

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Thoirs, K., E. Giles, and W. Barber. "The use and perceptions of simulation in medical radiation science education." Radiographer 58, no. 3 (September 2011): 5–11. http://dx.doi.org/10.1002/j.2051-3909.2011.tb00149.x.

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Lim, H. C. S., A. Cheong, and Y. L. Cai. "(A209) Developing Medical Facility Preparedness for Radiological Hazmat Emergencies: Applying Surge Science." Prehospital and Disaster Medicine 26, S1 (May 2011): s57—s58. http://dx.doi.org/10.1017/s1049023x11001993.

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IntroductionSingapore is considered a prime target for transnational terrorism. Perpetrators may select an explosive radiation dispersal device or “dirty bomb” as their weapon of choice. Additional risks of a local radiological emergency may arise from mishaps involving visiting marine nuclear-powered vessels. Strategies and methods used to enhance preparedness to respond to radiological mass-casualty incidents (MCIs) will be described.MethodsA core group comprising hospital emergency managers and radiology and emergency department staff spearheaded preparedness efforts. The Ministry of Health
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21

Nomachi, Masaharu, and Hai Vo Hong. "International school for radiation measurements in Asia." EPJ Web of Conferences 225 (2020): 10004. http://dx.doi.org/10.1051/epjconf/202022510004.

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Radiation measurement is a key technology for various sciences. The education of radiation science is demanding in Southeast Asian countries. We are collaborating with Universities in Southeast Asia. Hands-on exercise is important. However, it was not so easy to provide enough number of setups. Recent developments change the situation. The granularity of detectors in particle physics and medical apparatus is increasing. It means detector unit becomes smaller and less expensive. We are developing setups for radiation measurement exercises based on those new developments. Those system is portabl
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Nakajima, Tetsuo, Yasuharu Ninomiya, and Mitsuru Nenoi. "Radiation-Induced Reactions in The Liver — Modulation of Radiation Effects by Lifestyle-Related Factors —." International Journal of Molecular Sciences 19, no. 12 (December 3, 2018): 3855. http://dx.doi.org/10.3390/ijms19123855.

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Radiation has a wide variety of effects on the liver. Fibrosis is a concern in medical fields as one of the acute effects of high-dose irradiation, such as with cancer radiotherapies. Cancer is also an important concern following exposure to radiation. The liver has an active metabolism and reacts to radiations. In addition, effects are modulated by many environmental factors, such as high-calorie foods or alcohol beverages. Adaptations to other environmental conditions could also influence the effects of radiation. Reactions to radiation may not be optimally regulated under conditions modulat
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23

Currie, Geoffrey, Johnathan Hewis, Tarni Nelson, Amanda Chandler, Caroline Nabasenja, Kelly Spuur, Kym Barry, Nigel Frame, and Andrew Kilgour. "COVID-19 impact on undergraduate teaching: Medical radiation science teaching team experience." Journal of Medical Imaging and Radiation Sciences 51, no. 4 (December 2020): 518–27. http://dx.doi.org/10.1016/j.jmir.2020.09.002.

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24

Ekpo, Ernest Usang, Peter Hogg, and Mark F. McEntee. "A Review of Individual and Institutional Publication Productivity in Medical Radiation Science." Journal of Medical Imaging and Radiation Sciences 47, no. 1 (March 2016): 13–20. http://dx.doi.org/10.1016/j.jmir.2015.11.002.

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Giles, Eileen. "How do Medical Radiation Science educators keep up with the [clinical] Joneses?" Journal of Medical Radiation Sciences 61, no. 2 (May 11, 2014): 102–11. http://dx.doi.org/10.1002/jmrs.53.

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Butson, Martin J., Peter K. N. Yu, Tsang Cheung, and Peter Metcalfe. "Radiochromic film for medical radiation dosimetry." Materials Science and Engineering: R: Reports 41, no. 3-5 (September 2003): 61–120. http://dx.doi.org/10.1016/s0927-796x(03)00034-2.

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Ishida, Mari, Takafumi Ishida, Satoshi Tashiro, Kazuo Awai, and Masao Yoshizumi. "Cardiovascular Diseases and Medical Diagnostic Radiation Exposure." Journal of Japanese College of Angiology 62, no. 10 (October 10, 2022): 97–104. http://dx.doi.org/10.7133/jca.22-00023.

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Savitskii, V. L., M. G. Prodanchuk, L. A. Ustinova, O. O. Bobyliova, H. I. Petrashenko, V. A. Barkevych, and N. V. Kurdil. "On the results of the online scientific-practical conference with international participation "Experience of military formations in the aftermath of the Chernobyl accident through the prism of modern radiation and chemical threats" April 15-16, 2021, Kyiv." One Health and Nutrition Problems of Ukraine 55, no. 2 (October 20, 2021): 100–117. http://dx.doi.org/10.33273/2663-9726-2021-55-2-100-117.

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The Scientific-practical conference "Experience of military formations in the aftermath of the Chernobyl accident through the prism of modern radiation and chemical threats" (hereinafter - the Conference) was organized by the Ukrainian Military Medical Academy in conjunction with the National Research Center for Radiation Medicine of the National Academy of Medical Sciences of Ukraine and conducted on the basis of SE "Research Center of Preventive Toxicology, Food and Chemical Safety named after Academician L.I. Medved of the Ministry of Health of Ukraine" in Kyiv on April 15-16, 2021. Aim. Th
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29

Williams, Kim Allan, and Kalyani Ballapuram. "Radiation exposure in diagnostic imaging—use, misuse, or abuse? Part I: The background and science of medical radiation." Journal of Nuclear Cardiology 18, no. 4 (June 3, 2011): 566–69. http://dx.doi.org/10.1007/s12350-011-9402-z.

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Bhakta, Deepak, and Lynne D. Foreman. "Cosmic radiation: Not science fiction, but clinical reality." Heart Rhythm 5, no. 8 (August 2008): 1204–5. http://dx.doi.org/10.1016/j.hrthm.2008.05.005.

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Berezin, Igor Ivanovich, Sergey Sergeevich Somov, Kseniya Vladimirovna Yakusheva, Andrey Sergeevich Gorobets, and A. K. Sergeev. "Ensuring radiation safety in medical institutions of the dental profile." Sanitarnyj vrač (Sanitary Doctor), no. 6 (May 26, 2022): 432–39. http://dx.doi.org/10.33920/med-08-2206-06.

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The analysis of indicators of radiation exposure of medical workers of the dental profile of the Samara region during medical procedures for the period from 2004 to 2019 is carried out in comparison with the quantitative dynamics of X-ray diagnostic studies. The main directions of occupational safety indicators of medical workers of the dental profile when working with X-ray diagnostic equipment have been determined. The purpose was to conduct a comparative analysis of the radiation exposure indicators of medical workers of the dental profile of the Samara region during medical procedures for
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32

Benderitter, M., E. Herrera Reyes, M. A. Benadjaoud, F. Vanhavere, N. Impens, U. Mayerhofer-Sebera, M. Hierath, J. R. Jourdain, G. Frija, and J. Repussard. "MEDIRAD formulation of science-based recommendations for medical radiation protection: a stakeholder forum survey." Radioprotection 56, no. 4 (October 2021): 275–85. http://dx.doi.org/10.1051/radiopro/2021030.

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MEDIRAD (Implications of Medical Low Dose Radiation Exposure) is an innovative European research project funded by EURATOM which seeks to bring closer together the nuclear and medical research communities in order to advance science for radiation protection in radiotherapy, nuclear medicine, and diagnostic and interventional radiology. The project also aims to promote links between science and society, with the goal of better protecting patients and professionals, through the publication of recommendations based on MEDIRAD research findings (http://www.medirad-project.eu/). The MEDIRAD Stakeho
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Picton-Barnes, D’arcy, Manikam Pillay, and David Lyall. "A Systematic Review of Healthcare-Associated Infectious Organisms in Medical Radiation Science Departments." Healthcare 8, no. 2 (March 30, 2020): 80. http://dx.doi.org/10.3390/healthcare8020080.

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Healthcare-associated infections (HAIs) pose a significant occupational risk to medical radiation science (MRS) professionals, who have a high degree of patient contact. Current research largely focusses on HAIs in patients, with limited attention given to infectious organisms that MRS professionals are exposed to. This is a significant gap that this systematic review seeks to address by summarizing current literature to determine the infectious organisms within MRS departments, their reservoirs, and transmission modes. Reporting of this systematic review follows the preferred reporting items
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Dempsey, Shane E., and Helen M. Warren-Forward. "An analysis of the professional and academic interest of medical radiation science students." Radiography 17, no. 2 (May 2011): 145–51. http://dx.doi.org/10.1016/j.radi.2010.11.005.

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Peshkova, Kseniya Vladimirovna. "Radiation medical experiments in the United States (early 1930s – mid1970s)." Genesis: исторические исследования, no. 9 (September 2021): 13–28. http://dx.doi.org/10.25136/2409-868x.2021.9.34543.

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The subject of this research is the period of human radiation experiments within the framework of the Manhattan Project and the Cold War. This phenomenon took place in 1945–1974.and contradicts all known standards of the United Nations that protect human rights in the United States and worldwide. Medical radiation research were conducted in stringent secrecy of the undertaken experiments and their outcome. This article employs the problem-analytical approach for analyzing the phenomenon of human radiation experiments. The research leans on the principle of historicism, according to w
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Mukta B, Motwani, Tagade Pooja P, Dhole Apeksha S, and Khator Apurva D. "Knowledge and Attitude amongst the Dental and Medical students towards radiation hazards and radiation protection: A Questionnaire survey." International Journal of Dentistry Research 4, no. 2 (August 24, 2019): 43–48. http://dx.doi.org/10.31254/dentistry.2019.4203.

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Aim and objective: To assess the knowledge and attitudes regarding radiation hazards and protection amongst medical and dental students. Materials and method: A validated 20 point questionnaire about radiation protocol in the form of multiple choices was used for the study where 400 participants ( undergraduate students and interns) were included from medical and dental field. Results were analyzed using SPSS 20.0. Results: The knowledge, attitude and awareness about radiation protection was highest in dental interns followed by dental students, medical interns and medical students. Among the
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TORIZUKA, Kanji, and Yoshiharu YONEKURA. "Historical Overview of the Established Technique of PET Tracers Approved by the Sub-committee on Medical Application of Cyclotron-Produced Radionuclide, Medical Science and Pharmaceutical Committee of the Japan Radioisotope Association." RADIOISOTOPES 58, no. 2 (2009): 73–76. http://dx.doi.org/10.3769/radioisotopes.58.73.

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Kohno, Ryosuke. "Development of actual measurement-based RBE calculation model for carbon beam therapy and high-precision clinical analysis." Impact 2021, no. 6 (July 15, 2021): 12–14. http://dx.doi.org/10.21820/23987073.2021.6.12.

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Cancer can reduce quality of life, place strain on families and even kill. Treatment methods are not always effective nor precise and involve either surgical removal of cancerous tissues or a combination of drugs and radiation. Advances in physics are providing new hope for treatment options in the form of radiation and, specifically, particle therapy, which includes proton beam therapy and carbon ion radiotherapy (CIRT). This improves treatment precision as the beam can be targeted so that it kills cancer and not the surrounding tissue. Ryosuke Kohno, Department of Accelerator and Medical Phy
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Kretov, A. S., I. A. Galstyan, and A. Yu Bushmanov. "Features of consequences of local radiation injuries of varying severity." Medicо-Biological and Socio-Psychological Problems of Safety in Emergency Situations, no. 1 (June 16, 2022): 95–100. http://dx.doi.org/10.25016/2541-7487-2022-0-1-95-100.

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Relevance. The active development of nuclear and radiation technologies and, as a result, the significant use of ionizing radiation sources in many spheres of life (national economy, science, technology, medicine, etc.) has led to a significant increase in the group of people in contact with ionizing radiation, and, accordingly, to an increase in the risk of abnormal and emergency situations with an increase in the number of victims of radiation. In the clinic of human radiation pathology, local radiation injuries are much more common than other acute radiation injuries. Intention. To determin
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Celen, Yonca Yahsi, Mucize Sarihan, Ghada Almisned, Huseyin Ozan Tekin, and Ismail Ekmekçi. "Calculation of gamma-ray buildup factors for some medical materials." Emerging Materials Research 11, no. 3 (September 1, 2022): 1–9. http://dx.doi.org/10.1680/jemmr.22.00051.

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In recent years, novel materials with protective qualities against ionizing radiation have been discovered. Important concepts include the continued use of X-rays for diagnosis and treatment, particularly in the radiological energy range, as well as the calculation of the radiation attenuation properties of such materials, the build-up factor, and the attenuation coefficients. Radiation shielding is characterized by parameters such as linear attenuation coefficient (LAC, cm−1),.equivalent atomic number (Zeq), exposure buildup factors (EBF) and exposure absorption buildup factors (EABF). Radiat
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Krasnoselskyi, M. V., and N. O. Artamonova. "Grigoriev institute for medical radiology and oncology centenary: historic events." Український радіологічний та онкологічний журнал 28, no. 3 (September 25, 2020): 308–25. http://dx.doi.org/10.46879/ukroj.3.2020.308-325.

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Background. The historical survey of the activities carried out at Grigoriev Institute for Medical Radiology and Oncology is of present interest, resulting from the need to structure the Institute development trends in terms of a centenary celebration. Providing insight to visions of the past, one can also apprehend historical events, personalities and phenomena.
 Purpose – to summarize historical findings on establishing and development of SO «Grigoriev Institute for Medical Radiology and Oncology of the National Academy of Medical Sciences of Ukraine».
 Materials. The study deals w
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Krasnoselskyi, M. V., and N. O. Artamonova. "Grigoriev institute for medical radiology and oncology centenary: historic events." Український радіологічний та онкологічний журнал 28, no. 3 (September 25, 2020): 308–25. http://dx.doi.org/10.46879/ukroj.3.2020.308-325.

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Background. The historical survey of the activities carried out at Grigoriev Institute for Medical Radiology and Oncology is of present interest, resulting from the need to structure the Institute development trends in terms of a centenary celebration. Providing insight to visions of the past, one can also apprehend historical events, personalities and phenomena.
 Purpose – to summarize historical findings on establishing and development of SO «Grigoriev Institute for Medical Radiology and Oncology of the National Academy of Medical Sciences of Ukraine».
 Materials. The study deals w
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43

Currie, Geoffrey M., and Janelle M. Wheat. "The first year clinical placement for undergraduate medical radiation science students: tool or toil?" Radiographer 52, no. 2 (August 2005): 18–22. http://dx.doi.org/10.1002/j.2051-3909.2005.tb00032.x.

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Rykova, V. V. "THE SEMIPALATINSK NUCLEAR TEST SITE RESEARCH: BIBLIOMETRIC ANALYSIS OF THE DOCUMENTARY CORPUS SELECTED OF THE RUSSIAN SCIENCE CITATION INDEX." NNC RK Bulletin, no. 2 (October 17, 2021): 42–46. http://dx.doi.org/10.52676/1729-7885-2021-2-42-46.

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The article represents the bibliometric analysis of the documentary corpus devoted to studying the Semipalatinsk nuclear test site selected of the database Russian Science Citation Index. It shows the publication dynamics over a thirty-year period, the specific structure of the documentary corpus; revels that the documents are thematically structured as follows: research of the medical and biological consequences of radiation exposure (genetic consequences of ionizing radiation exposure; diseases induced by radiation exposure); assessment of the consequences of nuclear tests for the environmen
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45

Thierry-Chef, Isabelle, Elisabeth Cardis, John Damilakis, Guy Frija, Monika Hierath, and Christoph Hoeschen. "Medical applications of ionizing radiation and radiation protection for European patients, population and environment." EPJ Nuclear Sciences & Technologies 8 (2022): 44. http://dx.doi.org/10.1051/epjn/2022044.

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Medical applications of ionising radiation (IR) represent a key component of the diagnosis and treatment of many diseases, guaranteeing efficient health care. The use of IR in medicine, the largest source of general population radiation exposure, is potentially associated with increased risk of cancer and non-cancer diseases, which needs to be evaluated to provide evidence-based input for risk-benefit considerations. Efforts are also needed to improve the safety and efficacy of medical applications through optimisation. The EC Euratom programme enhances research in medical radiation protection
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Hwu, Yeukuang, and Giorgio Margaritondo. "Synchrotron radiation and X-ray free-electron lasers (X-FELs) explained to all users, active and potential." Journal of Synchrotron Radiation 28, no. 3 (April 27, 2021): 1014–29. http://dx.doi.org/10.1107/s1600577521003325.

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Synchrotron radiation evolved over one-half century into a gigantic worldwide enterprise involving tens of thousands of researchers. Initially, almost all users were physicists. But now they belong to a variety of disciplines: chemistry, materials science, the life sciences, medical research, ecology, cultural heritage and others. This poses a challenge: explaining synchrotron sources without requiring a sophisticated background in theoretical physics. Here this challenge is met with an innovative approach that only involves elementary notions, commonly possessed by scientists of all domains.
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Newhauser, Wayne, Timothy Jones, Stuart Swerdloff, Warren Newhauser, Mark Cilia, Robert Carver, Andy Halloran, and Rui Zhang. "Anonymization of DICOM electronic medical records for radiation therapy." Computers in Biology and Medicine 53 (October 2014): 134–40. http://dx.doi.org/10.1016/j.compbiomed.2014.07.010.

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Ramirez Cadavid, David A., Rick R. Layman, Thomas Nishino, J. Lauren Slutzky, Zhenyu Li, and Katrina Cornish. "Guayule Natural Rubber Latex and Bi2O3 Films for X-ray Attenuating Medical Gloves." Materials 15, no. 3 (February 4, 2022): 1184. http://dx.doi.org/10.3390/ma15031184.

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Existing natural latex radiation-attenuating gloves (RAGs) contain a high loading of radiation attenuation filler that reduces their mechanical properties to below Food and Drug Administration (FDA) medical glove requirements. RAGs are commonly formulated using Hevea natural rubber latex and lead-based fillers. The former can cause life-threatening allergic responses and the latter are known for their toxicity. In this work, a new lead-free RAG formulation based on circumallergenic guayule natural rubber latex (GNRL) and non-toxic radiation attenuation filler bismuth trioxide (Bi2O3) was devel
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Gee, William J. "Recent Trends Concerning Upconversion Nanoparticles and Near-IR Emissive Lanthanide Materials in the Context of Forensic Applications." Australian Journal of Chemistry 72, no. 3 (2019): 164. http://dx.doi.org/10.1071/ch18502.

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Upconversion nanoparticles (UCNPs) are materials that, upon absorbing multiple photons of low energy (e.g. infrared radiation), subsequently emit a single photon of higher energy, typically within the visible spectrum. The physics of these materials have been the subject of detailed investigations driven by the potential application of these materials as medical imaging devices. One largely overlooked application of UCNPs is forensic science, wherein the ability to produce visible light from infrared light sources would result in a new generation of fingerprint powders that circumvent backgrou
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Bhagi, Shuchi, Amit Alok, and NK Chaudhury. "Radiation Induced Gene Expression Signatures for Triage Biodosimetry." Defence Life Science Journal 6, no. 1 (February 23, 2021): 85–93. http://dx.doi.org/10.14429/dlsj.6.15540.

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Medical management of radiation emergencies will require quick and reliable biodosimetric tools for assessment of absorbed dose. Dicentric chromosomal assay (Gold standard) has a limitation of being time intensive, requires specialised human skill and cannot be used for triage and mass screening. Dose assessments of suspected individuals are critical for the medical management of radiation emergencies. For effectively utilizing the available resources, there is an urgent need for developing triage biodosimetry tools for determining the exposure status of suspected individuals. High-throughput
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