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Literature DB >> 34545766

Epidemiological studies of CT scans and cancer risk: the state of the science.

Amy Berrington de Gonzalez¹, Elisa Pasqual¹, Lene Veiga¹.

Abstract

20 years ago, 3 manuscripts describing doses and potential cancer risks from CT scans in children raised awareness of a growing public health problem. We reviewed the epidemiological studies that were initiated in response to these concerns that assessed cancer risks from CT scans using medical record linkage. We evaluated the study methodology and findings and provide recommendations for optimal study design for new efforts. We identified 17 eligible studies; 13 with published risk estimates, and 4 in progress. There was wide variability in the study methodology, however, which made comparison of findings challenging. Key differences included whether the study focused on childhood or adulthood exposure, radiosensitive outcomes (e.g. leukemia, brain tumors) or all cancers, the exposure metrics (e.g. organ doses, effective dose or number of CTs) and control for biases (e.g. latency and exclusion periods and confounding by indication). We were able to compare results for the subset of studies that evaluated leukemia or brain tumors. There were eight studies of leukemia risk in relation to red bone marrow (RBM) dose, effective dose or number of CTs; seven reported a positive dose-response, which was statistically significant (p < 0.05) in four studies. Six of the seven studies of brain tumors also found a positive dose-response and in five, this was statistically significant. Mean RBM dose ranged from 6 to 12 mGy and mean brain dose from 18 to 43 mGy. In a meta-analysis of the studies of childhood exposure the summary ERR/100 mGy was 1.78 (95%CI: 0.01-3.53) for leukemia/myelodisplastic syndrome (n = 5 studies) and 0.80 (95%CI: 0.48-1.12) for brain tumors (n = 4 studies) (p-heterogeneity >0.4). Confounding by cancer pre-disposing conditions was unlikely in these five studies of leukemia. The summary risk estimate for brain tumors could be over estimated, however, due to reverse causation. In conclusion, there is growing evidence from epidemiological data that CT scans can cause cancer. The absolute risks to individual patients are, however, likely to be small. Ongoing large multicenter cohorts and future pooling efforts will provide more precise risk quantification.

Entities: Chemical

Mesh：

Year: 2021 PMID： 34545766 PMCID： PMC9328069 DOI： 10.1259/bjr.20210471

Source DB: PubMed Journal: Br J Radiol ISSN： 0007-1285 Impact factor: 3.629

52 in total

1. Cohort Profile: the EPI-CT study: a European pooled epidemiological study to quantify the risk of radiation-induced cancer from paediatric CT.

Authors: Marie-Odile Bernier; Hélène Baysson; Mark S Pearce; Monika Moissonnier; Elisabeth Cardis; Michael Hauptmann; Lara Struelens; Jeremie Dabin; Christoffer Johansen; Neige Journy; Dominique Laurier; Maria Blettner; Lucian Le Cornet; Roman Pokora; Patrycja Gradowska; Johanna M Meulepas; Kristina Kjaerheim; Tore Istad; Hilde Olerud; Aste Sovik; Magda Bosch de Basea; Isabelle Thierry-Chef; Magnus Kaijser; Arvid Nordenskjöld; Amy Berrington de Gonzalez; Richard W Harbron; Ausrele Kesminiene
Journal: Int J Epidemiol Date: 2019-04-01 Impact factor: 7.196

2. Radiation exposure from CT in early childhood: a French large-scale multicentre study.

Authors: M-O Bernier; J-L Rehel; H J Brisse; X Wu-Zhou; S Caer-Lorho; S Jacob; J F Chateil; B Aubert; D Laurier
Journal: Br J Radiol Date: 2012-01 Impact factor: 3.039

3. IAEA survey of pediatric CT practice in 40 countries in Asia, Europe, Latin America, and Africa: Part 1, frequency and appropriateness.

Authors: Jenia Vassileva; Madan M Rehani; Humoud Al-Dhuhli; Huda M Al-Naemi; Jamila Salem Al-Suwaidi; Kimberly Appelgate; Danijela Arandjic; Einas Hamed Osman Bashier; Adnan Beganovic; Tony Benavente; Tadeusz Bieganski; Simone Dias; Leila El-Nachef; Dario Faj; Mirtha E Gamarra-Sánchez; Juan Garcia-Aguilar; L'ubka Gbelcová; Vesna Gershan; Eduard Gershkevitsh; Edward Gruppetta; Alexandru Hustuc; Sonja Ivanovic; Arif Jauhari; Mohammad Hassan Kharita; Siarhei Kharuzhyk; Nadia Khelassi-Toutaoui; Hamid Reza Khosravi; Helen Khoury; Desislava Kostova-Lefterova; Ivana Kralik; Lantao Liu; Jolanta Mazuoliene; Patricia Mora; Wilbroad Muhogora; Pirunthavany Muthuvelu; Leos Novak; Aruna S Pallewatte; Mohamed Shaaban; Esti Shelly; Karapet Stepanyan; Eu-Leong Harvey J Teo; Naw Thelsy; Pannee Visrutaratna; Areesha Zaman; Dejan Zontar
Journal: AJR Am J Roentgenol Date: 2012-05 Impact factor: 3.959

4. Excess lifetime cancer mortality risk attributable to radiation exposure from computed tomography examinations in children.

Authors: Gabriel Chodick; Cécile M Ronckers; Varda Shalev; Elaine Ron
Journal: Isr Med Assoc J Date: 2007-08 Impact factor: 0.892

5. Patient Exposure from Radiologic and Nuclear Medicine Procedures in the United States: Procedure Volume and Effective Dose for the Period 2006-2016.

Authors: Fred A Mettler; Mahadevappa Mahesh; Mythreyi Bhargavan-Chatfield; Charles E Chambers; Jennifer G Elee; Donald P Frush; Donald L Miller; Henry D Royal; Michael T Milano; David C Spelic; Armin J Ansari; Wesley E Bolch; Gary M Guebert; Robert H Sherrier; James M Smith; Richard J Vetter
Journal: Radiology Date: 2020-03-17 Impact factor: 11.105

6. Mortality from breast cancer after irradiation during fluoroscopic examinations in patients being treated for tuberculosis.

Authors: A B Miller; G R Howe; G J Sherman; J P Lindsay; M J Yaffe; P J Dinner; H A Risch; D L Preston
Journal: N Engl J Med Date: 1989-11-09 Impact factor: 91.245

7. Radiation exposure from CT scans in childhood and subsequent risk of leukaemia and brain tumours: a retrospective cohort study.

Authors: Mark S Pearce; Jane A Salotti; Mark P Little; Kieran McHugh; Choonsik Lee; Kwang Pyo Kim; Nicola L Howe; Cecile M Ronckers; Preetha Rajaraman; Alan W Sir Craft; Louise Parker; Amy Berrington de González
Journal: Lancet Date: 2012-06-07 Impact factor: 79.321

8. Cancer risk in 680,000 people exposed to computed tomography scans in childhood or adolescence: data linkage study of 11 million Australians.

Authors: John D Mathews; Anna V Forsythe; Zoe Brady; Martin W Butler; Stacy K Goergen; Graham B Byrnes; Graham G Giles; Anthony B Wallace; Philip R Anderson; Tenniel A Guiver; Paul McGale; Timothy M Cain; James G Dowty; Adrian C Bickerstaffe; Sarah C Darby
Journal: BMJ Date: 2013-05-21

9. Relationship between paediatric CT scans and subsequent risk of leukaemia and brain tumours: assessment of the impact of underlying conditions.

Authors: Amy Berrington de Gonzalez; Jane A Salotti; Kieran McHugh; Mark P Little; Richard W Harbron; Choonsik Lee; Estelle Ntowe; Melissa Z Braganza; Louise Parker; Preetha Rajaraman; Charles Stiller; Douglas R Stewart; Alan W Craft; Mark S Pearce
Journal: Br J Cancer Date: 2016-02-16 Impact factor: 7.640

10. Differences in characteristics of pediatric patients undergoing computed tomography between hospitals and primary care settings: implications for assessing cancer follow-up studies.

Authors: Gabriel Chodick; Moran Levin; Ruth A Kleinerman; Michael Shwarz; Varda Shalev; Shai Ashkenazi; Gad Horev
Journal: Isr J Health Policy Res Date: 2015-11-15

1 in total

1. Contemporary issues in radiation protection in medical imaging: introductory editorial.

Authors: Madan M Rehani; Zoe Brady
Journal: Br J Radiol Date: 2021-10 Impact factor: 3.629

1 in total