Budapest International Research and Critics Institute-Journal (BIRCI-Journal)

The purpose is to evaluate the entrance skin dose (ESD) and establish the diagnostic reference levels (DRLs) for the most common X-ray examinations in adult patients in Dire Dawa City, Ethiopia. Data from 45 adult patients in three selected hospitals were collected between February and July 2022. The patients' ages ranged from 21 to 54 years old, while their heights and weights varied from 150.0 cm to 175.0 cm and 48.0 kg to 75.0 kg, respectively. The study also assessed the mean entrance surface dose (ESD) values for radiography of the chest and abdomen. YMWGH had the lowest mean ESD for abdominal radiography varying from 0.004742 mGy at DCH to 0.010136 mGy at YMWGH. The mean ESD values for chest radiography showed notable diversity, ranging from 0.006277 mGy at SGH to 0.023849 mGy at DCH. Consistency in exposure measurements was indicated by the comparatively minimal ESD standard deviations across all hospitals. These results highlight how crucial it is to optimize mAs settings to lower ESD and enhance radiography procedures. Future studies should examine other factors influencing radiography outcomes and involve a larger spectrum of hospitals. According to, the examination of radiography data from DCH, YMWGH, and SGH, milliampere-seconds (mAs) influence radiographic results in three hospitals in a statistically meaningful way. With extremely low p-values and high t-values, the mAs coefficient is highly significant, highlighting its crucial role in defining image quality and patient safety. This consistent finding across the institutions implies that limiting patient exposure and attaining acceptable radiography results need careful consideration of the mAs settings. The constant term has low t-values and high p-values showing no discernible impact on the results. This is consistent with other research showing that terms frequently make just a little contribution to these kinds of models.

Milliampere-seconds (mAs); Entrance Surface Dose (ESD); Dose optimization; Cross-hospital comparison, X-ray; diagnostic reference levels

Brenner, D. J., & Hall, E. J. (2007). Computed tomography is an increasing source of radiation exposure. New England Journal of Medicine, 357(22), 2277-2284.

Brown R, White S, et al. (2021). Variability in Radiation Dose across Different Imaging Modalities. Journal of Radiological Practice, 15(4), 210–225.

Bushberg, J. T., Seibert, J. A., Leidholdt, E. M., & Boone, J. M. (2011). The essential physics of medical imaging. Lippincott Williams & Wilkins.

Dose in Chest and Abdominal Radiography: A Comparative Study." 123–130 in Journal of Radiology Research, 34(2).

European Commission. (1999). Radiation Protection 109: Guidance on diagnostic reference levels (DRLs) for medical exposures. Office for Official Publications of the European Communities.

Hendee, W. R. & Ritenour, E. R. (2002). Medical imaging physics. John Wiley & Sons.

ICRP. The 2007 International Commission on Radiological Protection Recommendations, ICRP

INTERNATIONAL ATOMIC ENERGY AGENCY, Radiation Protection for Patients, International Atomic Energy Agency, Vienna, Austria, 2014.

International Commission on Radiological Protection (ICRP). (2017). Recommendations of the ICRP. ICRP Publication 103, 45(1), 1-98.

International Commission on Radiological Protection. (2007). the 2007 recommendations of the International Commission on Radiological Protection. ICRP Publication 103. Annals of the ICRP, 37(2-4).

Johnson C., Williams D. (2019). Entrance Surface Air Kerma: Definition and Measurement. Radiation Protection Bulletin, 25(3), 112-125.

Johnson, R., Martinez, M., Harris, H., Wilson, W., Thompson, T., & Lee, L. "Standardizing Radiographic Protocols to Reduce Patient Dose Variability." Journal of Radiology International, 28(1), 2019, 45–52.

NCRP. National Council on Radiation Protection and Measurements Report No. 168: Radiation Dose Management for Fluoroscopically Guided Interventional Medical Procedures. Bethesda, MD, 2010.

Ofori, E.K. Ofori, K.A. William, N.S. Diane, Optimization of patient radiation protection in pelvic X-ray examination in Ghana, Journal of Applied Clinical Medical Physics, 13 (4) (2012), 165-171

Ogundare, F. O., Uche, C. Z., & Balogun, F. A. (2004). Radiological parameters and radiation doses of patients undergoing chest X-ray examinations in three Nigerian hospitals. British Journal of Radiology, 77 (914), 934–940.

Olowookere, J. C., David, O. O., and Bamidele, L. (2023). Measurement of the plain abdominal radiography entrance surface air kerma in a few Nigerian medical facilities. 319–325 in African Journal of Health Sciences, 36(3).

Publication 103. Ann. ICRP 2007, 37(2−4).

Seibert, J. A. & Boone, J. M. (2005). X-ray imaging physics for nuclear medicine technologists. Journal of Nuclear Medicine Technology, 33(1), 3-18.

Smith A, Jones B, et al. (2020). Radiation Dose in Medical Imaging: A Review. Journal of Radiological Science, 10(2), 45–58.

Smith, A., Davis, D., Evans, E., Brown, B., Clark, C., Garcia, F., and Smith, A. (2020). "Radiation

Taha, M.T. F.H. Al-Ghorabie, R.A. Kutbi, W.K. Saib, Assessment of entrance skin doses for patients undergoing diagnostic X-ray examinations in King Abdullah Medical City, Makkah, KSA, Journal of Radiation Research and Applied Sciences, 8(1), 2015, 100-103, https://doi.org/10.1016/j.jrras.2014.12.003.

The IAEA, or International Atomic Energy Agency, (2018). "Radiation Protection and Safety in Medical Uses of Ionizing Radiation." GSR Part 3 of the IAEA Safety Standards Series No.

Tigist Simegn, Hana Berhanu Tola, B.S. Goshu, Assessment of Chest and Abdomen X-ray Exposure of Patients in Dire Dawa Hospitals, Ethiopia, Romanian Journal of Biophysics, 2024, ROMANIAN J. BIOPHYS., Vol. 34, No. 3, P. 137–154, BUCHAREST, 2024.

UNSCEAR. Sources and Effects of Ionizing Radiation: United Nations Scientific Committee on the Effects of Atomic Radiation, UNSCEAR 2008 Report to the General Assembly, with Scientific Annexes. United Nations, New York, 2010.

Vano, E., Fernández, J. M., Ten, J. I., Guibelalde, E., & Gonzalez, L. (2017). Dose evaluation and optimization in diagnostic radiology and interventional radiology. European Journal of Radiology, 66(2), 143-148.

WHO. World Health Organization. Bonn Call for Action – Move towards Access to Medical Imaging and Radiation Therapy in Africa. Geneva, Switzerland, 2014.

Yang, Y., Choi, C., Park, P., Kim, K., Lee, H., and Kim, K. (2021). "Advanced Techniques in Radiography to Reduce Patient Dose." Journal of Medical Physics, 39(4), pages 200–210.