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Pediatric Radiology

Published in:

01-07-2013 | Original Article

Paediatric urological investigations—dose comparison between urology-related and CT irradiation

Authors: Mark Page, Cosmin Florescu, Lilian Johnstone, Daniel Habteslassie, Michael Ditchfield

Published in: Pediatric Radiology | Issue 7/2013

Abstract

Background

Urological investigation in children frequently involves high radiation doses; however, the issue of radiation for these investigations receives little attention compared with CT.

Objective

To compare the radiation dose from paediatric urological investigations with CT, which is commonly regarded as the more major source of radiation exposure.

Materials and methods

We conducted a retrospective audit in a tertiary paediatric centre of the number and radiation dose of CT scans, micturating cystourethrography exams and urological nuclear medicine scans from 2006 to 2011. This was compared with radiation doses in the literature and an audit of the frequency of these studies in Australia.

Results

The tertiary centre audit demonstrated that the ratio of the frequency of urological to CT examinations was 0.8:1 in children younger than 17 years. The ratio of the radiation dose of urological to CT examinations was 0.7:1. The ratio in children younger than 5 years was 1.9:1. In Australia the frequency of urological procedures compared with CT was 0.4:1 in children younger than 17 years and 3.1:1 in those younger than 5 years. The ratio of radiation-related publications was 1:9 favouring CT.

Conclusion

The incidence and radiation dose of paediatric urological studies is comparable to those of CT. Nevertheless the radiation dose of urological procedures receives considerably less attention in the literature.

Goske MJ, Applegate KE, Boylan J et al (2008) The image gently campaign: working together to change practice. AJR Am J Roentgenol 190:273–274PubMedCrossRef

Finnell SM, Carroll AE, Downs SM et al (2011) Subcommittee on urinary tract infection. Technical report—diagnosis and management of an initial UTI in febrile infants and young children. Pediatrics 128:e749–e770PubMedCrossRef

Ditchfield MR, De Campo JF, Cook DJ et al (1994) Vesicoureteral reflux: an accurate predictor of acute pyelonephritis in childhood urinary tract infection? Radiology 190:413–415PubMed

Williams G, Craig JC (2011) Long-term antibiotics for preventing recurrent urinary tract infection in children. Cochrane Database Syst Rev (3):CD001534. doi:10.1002/14651858.CD001534.pub3

National Collaborating Centre for Women’s and Children’s Health (2007) Urinary tract infection in children: diagnosis, treatment and long-term management. National Institute for Health and Clinical Excellence, RCOG Press, London. http://www.nice.org.uk/nicemedia/live/11819/36032/36032.pdf. Accessed 14 January 2013

Medicare Australia Statistics—Medicare Item Reports. https://www.medicareaustralia.gov.au/statistics/mbs_item.shtml. Cited 14 April 2012

Valentin J (2007) Managing patient dose in multi-detector computed tomography (MDCT). ICRP Publication 102. Ann ICRP 37:1–79

International Commission on Radiological Protection (1998) Radiation dose to patients from radiopharmaceuticals (addendum 2 to ICRP Publication 53). ICRP Publication 80. Ann ICRP 28:1–126. http://www.icrp.org/publication.asp?id=ICRP%20Publication%2080 Accessed 14 January 2013

Schultz FW, Geleijns J, Holscher HC et al (1999) Radiation burden to pediatric patients due to micturating cystourethrography examinations in a Dutch children’s hospital. Br J Radiol 72:763–772PubMed

10.

González L, Vañó E, Ruiz MJ (1995) Radiation doses to paediatric patients undergoing micturating cystourethrography examinations and potential reduction by radiation protection optimization. Br J Radiol 68:291–295PubMedCrossRef

11.

Fotakis M, Molyvda Athanasopoulou E, Psarrakos K et al (2003) Radiation doses to paediatric patients up to 5 years of age undergoing micturating cystourethrography examinations and its dependence on patient age: a Monte Carlo study. Br J Radiol 76:812–817PubMedCrossRef

12.

Sulieman A, Theodorou K, Vlychou M et al (2007) Radiation dose measurement and risk estimation for paediatric patients undergoing micturating cystourethrography. Br J Radiol 80:731–737PubMedCrossRef

13.

Ruiz MJ, Vañó E, González L et al (1996) Dose-area product values in frequently performed complex paediatric radiology examinations. Br J Radiol 69:160–164PubMedCrossRef

14.

Almén A, Mattsson S (1995) The radiation dose to children from X-ray examinations of the pelvis and the urinary tract. Br J Radiol 68:604–613PubMedCrossRef

15.

Chapple CL, Faulkner K, Lee RE et al (1992) Results of a survey of doses to paediatric patients undergoing common radiological examinations. Br J Radiol 65:225–231PubMedCrossRef

16.

Ward VL, Strauss KJ, Barnewolt CE et al (2008) Pediatric radiation exposure and effective dose reduction during voiding cystourethrography. Radiology 249:1002–1009PubMedCrossRef

17.

Thomas KE, Wang B (2008) Age-specific effective doses for pediatric MSCT examinations at a large children’s hospital using DLP conversion coefficients: a simple estimation method. Pediatr Radiol 38:645–656PubMedCrossRef

18.

Kim S, Yoshizumi TT, Frush DP et al (2010) Radiation dose from cone beam CT in a pediatric phantom: risk estimation of cancer incidence. AJR Am J Roentgenol 194:186–190PubMedCrossRef

19.

Nauer CB, Rieke A, Zubler C et al (2011) Low-dose temporal bone CT in infants and young children: effective dose and image quality. Am J Neuroradiol 32:1375–1380PubMedCrossRef

20.

Fahey FH, Treves ST, Adelstein SJ (2011) Minimizing and communicating radiation risk in pediatric nuclear medicine. J Nucl Med 52:1240–1251PubMed

21.

Smith T, Evans K, Lythgoe MF et al (1996) Radiation dosimetry of technetium-99m-DMSA in children. J Nucl Med 37:1336–1342PubMed

22.

Smith T, Gordon I, Kelly JP (1998) Comparison of radiation dose from intravenous urography and 99Tcm DMSA scintigraphy in children. Br J Radiol 71:314–319PubMed

23.

Peters CA, Skoog SJ, Arant BS Jr et al (2010) Summary of the AUA guideline on management of primary vesicoureteral reflux in children. J Urol 184:1134–1144PubMedCrossRef

24.

Shapiro E, Snow B, Zaontz M (2003) Management of vesicoureteral reflux. Rev Urol 5:121–125PubMed

25.

Becker AM (2009) Postnatal evaluation of infants with an abnormal antenatal renal sonogram. Curr Opin Pediatr 21:207–213PubMedCrossRef

26.

North American Consensus Guidelines for Administered Radiopharmaceutical Activities in Children and Adolescents. Available via: http://www.pedrad.org/associations/5364/files/ImGen11_Nu_Med_Poster.pdf Accessed 14 January 2013

27.

Shneider K, Perlmutter N, Arthur R et al (2000) Micturition cystourethrography in pediatric patients in selected children’s hospitals in Europe: evaluation of fluoroscopy technique, image quality criteria and dose. Radiat Prot Dosimetry 90:197–201CrossRef

Title: Paediatric urological investigations—dose comparison between urology-related and CT irradiation
Authors: Mark Page
Cosmin Florescu
Lilian Johnstone
Daniel Habteslassie
Michael Ditchfield
Publication date: 01-07-2013
Publisher: Springer-Verlag
Published in: Pediatric Radiology / Issue 7/2013
Print ISSN: 0301-0449
Electronic ISSN: 1432-1998
DOI: https://doi.org/10.1007/s00247-013-2635-z

At a glance: The STEP trials

Springer Medicine

Paediatric urological investigations—dose comparison between urology-related and CT irradiation

Abstract

Background

Objective

Materials and methods

Results

Conclusion

At a glance: The STEP trials

Springer Medicine

Abstract

Background

Objective

Materials and methods

Results

Conclusion

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