Patrick Muiga Maina1, Jennifer Anne Motto2, Lynne Janette Hazell2. 1. Department of Medical Imaging and Radiation Sciences, Faculty of Health Sciences, University of Johannesburg, Johannesburg, South Africa; Department of Medical Imaging Sciences, College of Medicine and Health Sciences, University of Rwanda, Kigali, Rwanda. Electronic address: patrickmuiga@gmail.com. 2. Department of Medical Imaging and Radiation Sciences, Faculty of Health Sciences, University of Johannesburg, Johannesburg, South Africa.
Abstract
BACKGROUND: An essential concept that all radiographers are required to implement is the use of techniques and the provision of protective devices to minimize radiation to patients and staff. Methods to achieve this could include good communication, immobilization, beam limitation, justification for radiation exposure, shielding, appropriate distances and optimum radiographic exposures factors. PURPOSE: The aim of this study was to assess the availability and utilization of radiation protection and safety measures by medical imaging technologists (MITs) in Rwandan hospitals. METHODS: A quantitative, non-experimental descriptive design was used and data collected by means of a self-designed questionnaire. One hundred and sixteen MITs (n = 116) representing 96.67% of the total population participated in the study. RESULTS: The study found radiation safety measures were not adequately implemented in government hospitals. Only 58.62% of MITs had radiation-measuring devices, with 29% receiving dose readings inconsistently. Lead rubber aprons were available at 99.13% of the hospitals; however, 59% of the participants had never checked the integrity of the aprons. Lead rubber aprons and lead equivalent barriers were most prevalent in the facilities. CONCLUSION: The study found there was a lack of adequate radiation safety equipment. Exposure charts and immobilization devices were not adequately implemented in the hospitals. The level of education and experience of the MITs did not appear to influence the radiation safety practice significantly. There is a need for concerted efforts between the Rwanda Utilities Regulatory Authority (RURA), Ministry of Health, University of Rwanda and hospital management to improve the radiation safety culture, especially in view of the law governing radiation protection that was recently promulgated.
BACKGROUND: An essential concept that all radiographers are required to implement is the use of techniques and the provision of protective devices to minimize radiation to patients and staff. Methods to achieve this could include good communication, immobilization, beam limitation, justification for radiation exposure, shielding, appropriate distances and optimum radiographic exposures factors. PURPOSE: The aim of this study was to assess the availability and utilization of radiation protection and safety measures by medical imaging technologists (MITs) in Rwandan hospitals. METHODS: A quantitative, non-experimental descriptive design was used and data collected by means of a self-designed questionnaire. One hundred and sixteen MITs (n = 116) representing 96.67% of the total population participated in the study. RESULTS: The study found radiation safety measures were not adequately implemented in government hospitals. Only 58.62% of MITs had radiation-measuring devices, with 29% receiving dose readings inconsistently. Lead rubber aprons were available at 99.13% of the hospitals; however, 59% of the participants had never checked the integrity of the aprons. Lead rubber aprons and lead equivalent barriers were most prevalent in the facilities. CONCLUSION: The study found there was a lack of adequate radiation safety equipment. Exposure charts and immobilization devices were not adequately implemented in the hospitals. The level of education and experience of the MITs did not appear to influence the radiation safety practice significantly. There is a need for concerted efforts between the Rwanda Utilities Regulatory Authority (RURA), Ministry of Health, University of Rwanda and hospital management to improve the radiation safety culture, especially in view of the law governing radiation protection that was recently promulgated.