Occupational radiation exposures for medical workers in Pakistan – An overview

[1] Yuan T, Liang Z, Yongjian J. Dose level of occupational expo-sure in China. Radiat Prot Dosimetry. 2008;128(4):491-495.Search in Google Scholar

[2] Jabeen A, Munir M, Khalil A, et al. Occupational exposure from external radiation used in medical practices in Pakistan by film badge dosimetry. Radiat Prot Dosimetry. 2010;140(4):396-401.10.1093/rpd/ncq13420418331Search in Google Scholar

[3] Motevalli SM, Borhanazad AM. Assessment of occupational exposure in medical practice in Tehran, Iran. Rom Reports Phys. 2015;67(2):431-438.Search in Google Scholar

[4] Wakeford R. Radiation in the workplace—a review of studies of the risks of occupational exposure to ionising radiation. J Radiol Prot. 2009;29:A61–79.10.1088/0952-4746/29/2A/S0519454806Search in Google Scholar

[5] Ali NM. Evolution of Radiation Protection Trends – the Malaysian Perspective. Prog Nucl Sci Technol. 2011;1:14-19.10.15669/pnst.1.14Search in Google Scholar

[6] Muhogora WE, Byorushengo E, Lema US, et al. Occupational radiation exposure in Tanzania (1996-2010): status and trends. Radiat Prot Dosimetry. 2012;153(4):403-410.10.1093/rpd/ncs12522798276Search in Google Scholar

[7] Rahman MS, Begum A, Hoque A, et al. Assessment of whole-body occupational radiation exposures in nuclear medicine practices of Bangladesh during 2010-2014. Iran J Nucl Med. 2016;24(1):51-58.Search in Google Scholar

[8] Rahman MS, Begum A, Hoque A, et al. Assessment of whole-body occupational radiation exposure in industrial radiography practices in Bangladesh during 2010-2014. Brazilian J Radiat Sci. 2016;4(2):1-17.10.15392/bjrs.v4i2.187Search in Google Scholar

[9] Linet MS, Kim KP, Miller DL, et al. Historical review of occupational exposures and cancer risks in medical radiation workers. Radiat Res. 2010;174(6):793-808.10.1667/RR2014.1409889721128805Search in Google Scholar

[10] Pakistan Nuclear Regulatory Authority (PNRA). Regulations on Radiation Protection (PAK/904). 2004.Search in Google Scholar

[11] International Atomic Energy Agency (IAEA). International Basic Safety Standards for protection against ionizing radiation and for the safety of radiation sources, Safety Series No. 115. 1996.Search in Google Scholar

[12] International Atomic Energy Agency (IAEA). Assessment of Occupational Exposure Due to External Sources of Radiation, Safety Guide No. RS-G-1.3. 1999.Search in Google Scholar

[13] International Atomic Energy Agency (IAEA). Occupational Radiation Protection, Safety Guide No. RS-G-1.1. 1999.Search in Google Scholar

[14] International Atomic Energy Agency (IAEA). Occupational Radiation Protection in the Mining and Processing of Raw Materials, Safety Standards Series No. RS-G-1.6. 2004.Search in Google Scholar

[15] International Atomic Energy Agency (IAEA). Radiation Protection and Safety of Radiation Sources: International Basic Safety Standards (GSR Part 3). 2014.Search in Google Scholar

[16] International Commission on Radiological Protection (ICRP). 1990 Recommendations of the International Commission on Radiological Protection. Ann ICRP. 1991;21(1-3).Search in Google Scholar

[17] International Commission on Radiological Protection (ICRP). The 2007 Recommendations of the International Commission on Radiological Protectiin: ICRP Publication 103. Ann ICRP. 2007;37:1-332.Search in Google Scholar

[18] Khan SH, Ahmad SM. Whole Body Dose to Radiation Workers at a Tertiary Care Hospital in Kashmir: Analysis and Comparison with Naional Multi-Institutional Pool of Medical Radiation Workers. Indian J Nucl Med. 2003;18(3):57-61.Search in Google Scholar

[19] Zeyrek CT, Gunduz H. Occupational exposure to ionizing radiation with thermoluminescence dosimetry system in Turkey, in 2003. Radiat Prot Dosimetry. 2005;113(4):374-380.10.1093/rpd/nch48115797921Search in Google Scholar

[20] Gunduz H, Zeyrek CT, Aksu L, Isak S. Occupational exposure to ionizing radiation in the region of Anatolia, Turkey for the period 1995-1999. Radiat Prot Dosimetry. 2004;108(4):293-301.10.1093/rpd/nch02515103059Search in Google Scholar

[21] Samerdokiene V, Atkocius V, Ofomala R. Radiation exposure recieved by the medical radiation workers in Lithuania at the institute of oncology, Vilnius university, 2004-2011. Radiat Prot Dosimetry. 2013;157(1):152-157.10.1093/rpd/nct11123633650Search in Google Scholar

[22] Valuckas KP, Atkocius V, Samerdokiene V. Occupational exposure of medical radiation workers in Lithuania, 1991–2003. Acta Medica Litu. 2007;14(3):155-159.Search in Google Scholar

[23] Samerdokiene V, Atkocius V, Kurtinaitis J, Valuckas KP. Occupational exposure of medical radiation workers in Lithuania, 1950-2003. Radiat Prot Dosimetry. 2008;130(2):239-243.10.1093/rpd/ncm49018375466Search in Google Scholar

[24] Park M, Kim G, Ji YH, et al. Trends of the effective dose distribution of occupational exposures in medical and research departments for KIRAMS in Republic of Korea. Radiat Prot Dosimetry. 2014;158(2):241-245.10.1093/rpd/nct20424026897Search in Google Scholar

[25] Korir GK, Wambani JS, Korir IK. Estimation of annual occupational effective doses from external ionising radiation at medical institutions in Kenya. SA J Radiol. 2011;15(4):116-119.10.4102/sajr.v15i4.353Search in Google Scholar

[26] Almasri HY, Kakinohana Y, Yogi T. Occupational radiation monitoring at a large medical center in Japan. Radiol Phys Technol. 2014;7(2):271-276.10.1007/s12194-014-0262-524570292Search in Google Scholar

[27] Colgan PA, Currivan L, Fenton D. An assessment of annual whole-body occupational radiation exposure in Ireland (1996-2005). Radiat Prot Dosimetry. 2008;128(1):12-20.10.1093/rpd/ncm23517562657Search in Google Scholar

[28] Kamenopoulou V, Drikos G, Dimitriou P. Occupational exposure to ionizing radiation in Greece (1994-1998). Radiat Prot Dosimetry. 2000;91(4):385-389.10.1093/oxfordjournals.rpd.a033248Search in Google Scholar

[29] Hasford F, Owusu-Banahen J, Amoako JK, et al. Assessment of annual whole-body occupational radiation exposure in medical practice in Ghana (2000-09). Radiat Prot Dosimetry. 2012;149(4):431-437.10.1093/rpd/ncr31821743072Search in Google Scholar

[30] Alramlawi SA, Alsaqr AS, Zayat DMA, Galal M. Assessing the occupational radiation doses for medical workers at Cairo university hospital based on job categories. Arab J Nucl Sci Appl. 2015;48(1):40-43.Search in Google Scholar

[31] Weizhang W, Wenyi Z, Ronglin C, Liang’an Z. Occupational exposures of Chinese medical radiation workers in 1986 – 2000. Radiat Prot Dosimetry. 2005;117(4):440-443.10.1093/rpd/nci31215956219Search in Google Scholar

[32] Behroozi H. Occupational exposure and mistakes in the wearing of film badges in computed tomography staff (1990-2009). Radiography. 2014;20(1):33-35.10.1016/j.radi.2013.08.005Search in Google Scholar

[33] Basić B, Beganović A, Samek D, et al. Ten years of monitoring the occupational radiation exposure in Bosnia and Herzegovina. Radiat Prot Dosimetry. 2010;139(1):400-402.10.1093/rpd/ncq00620150230Search in Google Scholar

[34] Banu H, Alam MN, Chowdhury MI, et al. Assessment of occupational and patient dose from diagnostic and therapeutic radiation exposure using thermoluminescent dosimetry. Health Phys. 1998;74(4):478-480.10.1097/00004032-199804000-000109525423Search in Google Scholar

[35] UNSCEAR. Sources and Effects of Ionizing Radiation, United Nations Scientific Committee on the Effects of Atomic Radiation UNSCEAR 2000 Report to the General Assembly, with Scientific Annexes [Internet]. Vol. I. 2000. 1-17 p. Available from: http://www.unscear.org/docs/publications/2000/UNSCEAR_2000_Report_Vol.I.pdfSearch in Google Scholar

[36] The pakistan atomic energy commission ordinance, 1965. Gazette of Pakistan, No: XVII of 1965.Search in Google Scholar

[37] Hussain M, Khan RA, Nasim B. Regulatory Framework for Occupational Exposure Management in Pakistan. 2009;1-5. Available from: http://www.isoe-network.net/publications/pub-proceedings/symposia/international-symposia/vienna-austria-october-2009/papers-5/session-4-occupational-exposure-in-npps-1/1304-nasim2009-pdf/file.htmlSearch in Google Scholar

[38] Fazal-e-Rahim, Shah AS, Rahim I. Trends in occupational radiation exposures at IRNUM (2000-2008). Pakistan J Radiol. 2011;21(2):59-62.Search in Google Scholar

[39] Masood K, Ahmad M, Zafar J, et alH. Assessment of occupational exposure among Pakistani medical staff during 2007-2011. Australas Phys Eng Sci Med. 2012;35(3):297-300.10.1007/s13246-012-0156-y22847228Search in Google Scholar

[40] Memon SA, Laghari NA, Cheema AA. Evaluation of radiation workers’ occupational doses working at NIMRA Jamshoro. J Liaquat Univ Med Heal Sci. 2012;11(3):190-194.Search in Google Scholar

[41] Zafar T, Masood K, Zafar J. Assessment of personal occupational radiation exposures received by nuclear medicine and oncology staff in Punjab (2003–2012). Australas Phys Eng Sci Med. 2015;38(3):473-478.10.1007/s13246-015-0368-z26260188Search in Google Scholar

[42] Younas S, Yar A, Qadir E, Nawaz K. Radiation dose management of ¹⁸FDG for occupational workers and comforters. Pakistan J Nucl Med. 2015;5(1):58-66.Search in Google Scholar

[43] Gadhi MA, Fatmi S, Gadhi MS, et al. Variation of annual effective dose from external ionizing radiation among radiation workers of Bahawalpur Institute of Nuclear Medicine and Oncology (BINO). Pakistan. Int J Radiat Res. 2016;14(3):229-235.Search in Google Scholar

[44] Razaq A, Waqar M, Soomro Q, Javed MA. Evaluation of radiation workers occupational doses for newly established medical center NORIN Nawabshah in Pakistan. J Med Phys Biophys. 2016;3(1):61-65.Search in Google Scholar

[45] Ahmad M, Ahmad H, Khattak MR, et al. Assessment of Occupational Exposure From External Radiation to Workers at IRNUM, Pakistan (2009-2016). Iran J Med Phys. 2017;14(4):197-202.Search in Google Scholar

[46] Carreiro JV, Avelar R. Occupational exposure in medical and paramedical professions in Portugal. Radiat Prot Dosimetry. 1991;36(2):233-236.Search in Google Scholar

[47] Koczynski A, Chec A, Lach D, Dabek M. Occupational exposure to external ionizing radiation in Poland, 1999. Radiat Prot Dosimetry. 2001;96(1-3):61-62.10.1093/oxfordjournals.rpd.a00660811586756Search in Google Scholar

[48] El-din MME, Mahmoud RMM, Abaza A, et al. Occupational Radiation Exposure in Pet/Ct Units. Arab J Nucl Sci Appl. 2017;50(3):58-65.Search in Google Scholar

[49] Seierstad T, Stranden E, Bjering K, et al. Doses to nuclear technicians in a dedicated PET/CT centre utilising 18F flurodeoxyglucose (FDG). Radiat Prot Dosimetry. 2007;123(2):246-249.10.1093/rpd/ncl14116987913Search in Google Scholar

[50] Roberts FO, Gunawardana DH, Pathmaraj K, et al. Radiation Dose to PET Technologists and Strategies to Lower Occupational Exposure. J Nucl Med Technol. 2005;33(1):44-47.Search in Google Scholar

[51] Antic V, Ciraj-Bjelac O, Stankovic J, et al. Radiation exposure to nuclear medicine staff involved in PET/CT practice in Serbia. Radiat Prot Dosimetry. 2014;162(4):577-585.10.1093/rpd/ncu00124464817Search in Google Scholar

[52] Castrillo SV, Henriquez FC. A study on occupational exposure in a PET/CT facility. Radiat Prot Dosimetry. 2011;147(1):247-249.Search in Google Scholar

[53] Dalianis K, Kollias G, Malamitsi J, et al. Doses to medical workers operating in a PET/CT department after the use of new dynamic techniques. J Phys Conf Ser. 2015;637(1):12003.10.1088/1742-6596/637/1/012003Search in Google Scholar

[54] Demir M, Demir B, Yaşar D, et al. Radiation doses to technologists working with 18 F-FDG in a PET center with high patient capacity. Nukleonika. 2010;55(1):107-112.Search in Google Scholar

[55] Cronin B, Marsden PK, Doherty MJO. Are restrictions to behaviour of patients required following fluorine-18 fluorodeoxyglucose positron emission tomographic studies ? Eur J Nucl Med. 1999;26(2):121-128.10.1007/s0025900503679933345Search in Google Scholar

[56] Biran T, Weininger J, Malchi S, et al. Measurement of occupational exposure for 18F FDG PET scans. Health Phys. 2004;87(5):539-544.10.1097/01.HP.0000137180.85643.9d15551792Search in Google Scholar

[57] Zeff BW, Yester M V. Patient self-attenuation and technologist dose in positron emission tomography. Med Phys. 2005;32(4):861-865.10.1118/1.186955215895568Search in Google Scholar

[58] Benator NA, Cronin BF, O’Doherty MJ. Radiation dose rates from patients undergoing PET: Implications for technologists and waiting areas. Eur J Nucl Med. 2000;27(5):583-589.10.1007/s00259005054610853815Search in Google Scholar

[59] Chiesa C, Sanctis V De, Crippa F, et al. Radiation dose to technicians per nuclear medicine procedure : comparison between technetium-99m, gallium-67, and iodine-131 radiotracers and fluorine-18 fluorodeoxyglucose. Eur J Nucl Med. 1997;24(11):1380-1389.10.1007/s0025900501649371871Search in Google Scholar

[60] 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. Vol. I. 2008. 1-683 p.Search in Google Scholar