Free Access
Volume 59, Number 2, April - June
Page(s) 131 - 137
Published online 03 June 2024
  • Adeyinka A, Bailey K, Pierre L, Kondamudi N. 2021. COVID 19 infection: pediatric perspectives. J Am College Emerg Phys Open 2 (1): e12375. [Google Scholar]
  • Admontree S, Junsorn S, Tathip R, Todsatidpaisan S, Buachan P, Asavaphatiboon S. 2019. Evaluation of Size-Specific Dose Estimates (SSDE) in paediatric body imaging using 320-detector CT. Naresuan Univ J: Sci Technol 27 (2): 28–35. [Google Scholar]
  • Alkhorayef M. 2018. Radiation risk from chest, abdomen and pelvis computed tomography investigations. J Radioanal Nucl Chem 318 (1): 661–665. [Google Scholar]
  • Bagherzadeh S, Jabbari N, Khalkhali HR. 2021. Radiation dose and cancer risks from radiation exposure during abdominopelvic computed tomography (CT) scans: comparison of diagnostic and radiotherapy treatment planning CT scans. Radiat Environ Biophys 60: 579–589. [Google Scholar]
  • Berrington de Gonzalez A, Pasqual E, Veiga L. 2021. Epidemiological studies of CT scans and cancer risk: the state of the science. Br J Radiol 94: 20210471. [Google Scholar]
  • Biagas KV, Gross ER, Muratore CS. 2019. Evaluation of the pediatric trauma patient: support for judicious use of CT imaging. Pediatric Crit Care Med 20 (6): 579–580. [Google Scholar]
  • Council NR. 2006. Health risks from exposure to low levels of ionizing radiation: BEIR VII phase 2. [Google Scholar]
  • Franck C, Vandevoorde C, Goethals I, Smeets P, Achten E, Verstraete K, et al. 2016. The role of Size-Specific Dose Estimate (SSDE) in patient-specific organ dose and cancer risk estimation in paediatric chest and abdominopelvic CT examinations. Eur Radiol 26: 2646–2655. [Google Scholar]
  • Galanski M, Nagel H, Stamm G. 2005. Paediatric CT exposure practice in the Federal Republic of Germany. Results of a nation-wide survey in, 6: 2006. [Google Scholar]
  • Gao Y, Quinn B, Pandit-Taskar N, Behr G, Mahmood U, Long D, et al. 2018. Patient-specific organ and effective dose estimates in pediatric oncology computed tomography. Phys Med 45: 146–155. [Google Scholar]
  • Garg M, Prabhakar N, Bhalla AS. 2021. Cancer risk of CT scan in COVID-19: resolving the dilemma. Indian J Med Res 153 (5-6): 568. [Google Scholar]
  • Giansante L, Martins JC, Nersissian DY, Kiers KC, Kay FU, Sawamura MV, et al. 2019. Organ doses evaluation for chest computed tomography procedures with TL dosimeters: comparison with Monte Carlo simulations. J Appl Clin Med Phys 20 (1): 308–320. [Google Scholar]
  • Hennon TR, Penque MD, Abdul-Aziz R, Alibrahim OS, McGreevy MB, Prout AJ, et al. 2020. COVID-19 associated multisystem inflammatory syndrome in children (MIS-C) guidelines; a Western New York approach (Vol. 57, pp. 101232): Elsevier. [Google Scholar]
  • Hong J-Y., Han K, Jung J-H., Kim JS. 2019. Association of exposure to diagnostic low-dose ionizing radiation with risk of cancer among youths in South Korea. JAMA Network Open 2 (9): e1910584–e1910584. [Google Scholar]
  • Howard‐Jones AR, Bowen AC, Danchin M, Koirala A, Sharma K, Yeoh DK, et al. 2022. COVID‐19 in children: I. Epidemiology, prevention and indirect impacts. J Paediatr Child Health 58: 39–45. [Google Scholar]
  • Hussain S, Mubeen I, Ullah N, Shah SSUD, Khan BA, Zahoor M, Sultan MA. 2022. Modern diagnostic imaging technique applications and risk factors in the medical field: A review. BioMed Research International. [Google Scholar]
  • Kalra MK, Homayounieh F, Arru C, Holmberg O, Vassileva J. 2020. Chest CT practice and protocols for COVID-19 from radiation dose management perspective. Eur Radiol 30: 6554–6560. [Google Scholar]
  • Karim M, Harun H, Kayun Z, Aljewaw O, Azizan S, Rafiz N, Muhammad N. 2021. Paediatric radiation dose and cancer risk associated with body effective diameter during CT thorax examination. Radiation Phys Chem 188: 109685. [Google Scholar]
  • Kaufman AE, Naidu S, Ramachandran S, Kaufman DS, Fayad ZA, Mani V. 2020. Review of radiographic findings in COVID-19. World J Radiol 12 (8): 142. [Google Scholar]
  • Lee C, Kim KP, Bolch WE, Moroz BE, Folio L. 2015. NCICT: a computational solution to estimate organ doses for pediatric and adult patients undergoing CT scans. J Radiolog Prot 35: 891. [Google Scholar]
  • Li B, Shen J, Li L, Yu C. 2020. Radiographic and clinical features of children with coronavirus disease (COVID-19) pneumonia. Indian Pediatr 57: 423–426. [Google Scholar]
  • Lin W-C., Lin C-H. 2016. Multidetector computed tomography in the evaluation of pediatric acute abdominal pain in the emergency department. Biomedicine 6: 1–5. [Google Scholar]
  • Marcu LG, Chau M, Bezak E. 2021. How much is too much? Systematic review of cumulative doses from radiological imaging and the risk of cancer in children and young adults. Crit Rev Oncol/Hematol 160: 103292. [Google Scholar]
  • Mathews JD, Forsythe AV, Brady Z, Butler MW, Goergen SK, Byrnes GB, et al. 2013. Cancer risk in 680 000 people exposed to computed tomography scans in childhood or adolescence: data linkage study of 11 million Australians. BMJ 346. [Google Scholar]
  • Medicine, A.A.O.P.I. 2011. Size-specific dose estimates (SSDE) in pediatric and adult body CT examinations. AAPM Rep 204: 1–30. [Google Scholar]
  • Meulepas JM, Ronckers CM, Smets AM, Nievelstein RA, Gradowska P, Lee C, et al. 2019. Radiation exposure from pediatric CT scans and subsequent cancer risk in the Netherlands. J Natl Cancer Inst 111 (3): 256–263. [Google Scholar]
  • Miglioretti DL, Johnson E, Williams A, Greenlee RT, Weinmann S, Solberg LI, et al. 2013. The use of computed tomography in pediatrics and the associated radiation exposure and estimated cancer risk. JAMA Pediatr 167:, 700–707. [Google Scholar]
  • Mohammadbeigi A, Khoshgard K, Haghparast A, Eivazi MT. 2019. Local DRLs for paediatric CT examinations based on size-specific dose estimates in Kermanshah, Iran. Radiat Protect Dosimetry 186: 496–506. [Google Scholar]
  • Pearce MS, Salotti JA, Little MP, McHugh K, Lee C, Kim KP, et al. 2012. Radiation exposure from CT scans in childhood and subsequent risk of leukaemia and brain tumours: a retrospective cohort study. The Lancet 380: 499–505. [Google Scholar]
  • Radiology ESO (2016). European guidelines on DRLs for paediatric imaging: PiDRL. [Google Scholar]
  • Shrimpton P, Hillier M, Lewis M, Dunn M. 2003: National survey of doses from CT in the UK. 2006, 79. [Google Scholar]
  • Tahmasebzadeh A, Paydar R, Soltani-Kermanshahi M, Maziar A, Reiazi R 2021. Lifetime attributable cancer risk related to prevalent CT scan procedures in pediatric medical imaging centers. Int J Radiat Biol 97: 1282–1288. [Google Scholar]
  • Verdun FR, Gutierrez D, Vader JP, Aroua A, Alamo-Maestre LT, et al. 2008. CT radiation dose in children: a survey to establish age-based diagnostic reference levels in Switzerland. Eur Radiol 18: 1980–1986. [Google Scholar]
  • Wang L, Gong S, Yang J, Zhou J, Xiao J, Gu JH et al. 2019. CARE Dose 4D combined with sinogram‐affirmed iterative reconstruction improved the image quality and reduced the radiation dose in low dose CT of the small intestine. J Appl Clin Med Phys 20: 293–307. [Google Scholar]
  • Zimmermann P, Curtis N. Coronavirus infections in children including COVID-19: an overview of the epidemiology, clinical features, diagnosis, treatment and prevention options in children, Pediatr Infect Disease J 39: 355. [Google Scholar]

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