Auvinen, A., Kivelä, T., Heinävaara, S., & Mrena, S. (2015). Eye Lens Opacities Among Physicians Occupationally Exposed to Ionizing Radiation. Annals of Occupational Hygiene, 59(7), 945–948.
https://doi-org.databases.msutexas.edu/10.1093/annhyg/mev022
The objective of this article is to explore and analyze the relationship between ionizing radiation among physicians and the possible causes of the eye lens opacities. The authors successfully collected data by using physicians exposed to ionizing radiation and a control group for physicians not exposed to ionizing radiation. Comparing results from the two groups could be used to make a reliable conclusion on the relationship between ionizing radiation and the impacts they have on the vision of an individual. The audience for the article is the physicians operating in X-rays and gamma rays likely to affect individual vision. Physicians can apply the information from this article in enhancing safety whenever they engage in operations or activities that require ionizing radiation. The information provided in the section supports the claims from other researchers that exposure to ionizing radiation has an impact on reducing vision. However, the information is less informative because the authors focus on understanding the sources of the problem rather than considering the possible solutions. Therefore, it is the responsibility of physicians to prevent disclosure of their eyes to emissions likely to affect their vision. The article is informative on the readers about the connection between ionizing radiation and Cataractogenesis. The results reveled that physicians exposed to ionizing radiation are likely have a high tendency for causing adverse impacts on the vision of physicians.
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Thomas, R. P., Grau, M., Eldergash, O., Kowald, T., Schnabel, J., Szczechowicz, M., & Chavan,
A. (2018). Will X-ray Safety Glasses Become Mandatory for Interventions? CardioVascular & Interventional Radiology , 41 (7), 1074–1080.
https://doi-org.databases.msutexas.edu/10.1007/s00270-018-1960-x
The purpose of this article is to analyze the relationship between exposure to high ionizing dose and the occurrence of reduced vision among physicians and technicians. The credibility of the author originates from the fact that the research is based on first-hand information by interacting with physicians and technicians using ionizing radiation. Observing the outcomes of the research for six months provided informative outcomes to the audience. The information presented in this article compares both the vascular and endovascular treatments processes to examine the impacts they have on the eyes. For instance, the endovascular procedures are associated with conducting x-rays to view internal organs before implementing any treatment process to the individual. The results obtained from the research is informative to technicians and physicians conducting vascular interventions because it creates a room for understanding the intervention strategies for addressing the dangers associated with ionizing radiation. The information provided in the article is essential because it gives an insight regarding the ways physicians can minimize risks associated with Radiological Vascular interventions. However, the approach differs from other research articles in that it approaches from the solution perspective to the dangers of ionizing radiation.
Seals, K., Lee, E., Cagnon, C., Al-Hakim, R., Kee, S., Seals, K. F., Lee, E. W., Cagnon, C. H.,
Al-Hakim, R. A., & Kee, S. T. (2016). Radiation-Induced Cataractogenesis: A Critical Literature Review for the Interventional Radiologist. CardioVascular & Interventional Radiology , 39 (2), 151–160.
https://doi-org.databases.msutexas.edu/10.1007/s00270-015-1207-z
The purpose of this article is to explore the relationship between radiation exposure and cataractogenesis and evaluating the suggested mechanisms to address this issue. The authors use a literature review approach to analyze the claims from various researchers and their conclusion about the causes of cataractogenesis. The intended audience in this article is the physicians and technicians with an interest in understanding the possible causes and impacts of high ionizing radiation. The approach in the report supports the claim that there is an association between ionizing radiation and loss of vision among physicians. However, the outcomes of the research conducted by the authors reveal that there is an absence of data supporting the connection between the formation of cataracts and exposure to ionizing radiation. However, the authors challenge this view and argue that cataracts can also be formed in the absence of ionizing radiation and low radiation doses. Therefore, the authors advocate for better intervention mechanisms because the suggested lead glasses are ineffective. Thus, the authors enhance the knowledge about ionizing radiation by analyzing the impacts of suggested intervention strategies.
References
Auvinen, A., Kivelä, T., Heinävaara, S., & Mrena, S. (2015). Eye Lens Opacities Among Physicians Occupationally Exposed to Ionizing Radiation. Annals of Occupational Hygiene, 59(7), 945–948. https://doi-org.databases.msutexas.edu/10.1093/annhyg/mev022
Seals, K., Lee, E., Cagnon, C., Al-Hakim, R., Kee, S., Seals, K. F., Lee, E. W., Cagnon, C. H.,
Al-Hakim, R. A., & Kee, S. T. (2016). Radiation-Induced Cataractogenesis: A Critical Literature Review for the Interventional Radiologist. CardioVascular & Interventional Radiology, 39(2), 151–160.
https://doi-org.databases.msutexas.edu/10.1007/s00270-015-1207-z
Thomas, R. P., Grau, M., Eldergash, O., Kowald, T., Schnabel, J., Szczechowicz, M., & Chavan,
A. (2018). Will X-ray Safety Glasses Become Mandatory for Interventions? CardioVascular & Interventional Radiology, 41(7), 1074–1080.
https://doi-org.databases.msutexas.edu/10.1007/s00270-018-1960-x
