Congress:
EuroSafe Imaging 2017
Keywords:
Plain radiographic studies, Fluoroscopy, CT, Radioprotection / Radiation dose, Action 12 - Information for and communication with patients, Action 8 - Radiation protection training and learning material, Action 11 - Improved patient communication, Action 6 - Education and training in medical radiation protection, Radiation safety, Education and training
Authors:
G. Paulo, A. Trianni, D. Pekarovic, M. Kortesniemi, J. Santos, C. Granata, A. Gervaise, E. T. Samara, W. Jaschke, M. Maher
DOI:
10.1594/esi2017/ESI-0045
References
- Alderson SA,
Hilton S,
Papanicolaou N.
MDCT urography: Review of technique and spectrum of diseases.
Applied Radiology 2011;40(7):6-13.
- American Association of Physicists in Medicine (2012).
AAPM position statement on the use of bismuth shielding for the purpose of dose reduction in CT scanning.
http://www.aapm.org/publicgeneral/bismuthshielding.pdf
- Andriole KP,
Ruckdeschel TG,
Flynn MJ,
Hangiandreou NJ,
Jones a K,
Krupinski E,
et al.
ACR-AAPM-SIIM practice guideline for digital radiography.
J Digit Imaging.
2013 Mar;26(1):26–37.
- ASRT,
Best Practices in Digital Radiography,
2012
- Beister M,
Kolditz D,
Kalender WA.
Iterative reconstruction methods in X-ray CT.
Phys Med.
2012 Apr;28(2):94-108.
- Bomer J,
Wiersma-Deijl L,
Holscher HC.
Electronic collimation and radiation protection in paediatric digital radiography: revival of the silver lining.
Insights Imaging.
2013;4(5):723–7.
- Broder JS,
Frush DP (2014) Content and style of radiation risk communication for pediatric patients.
J Am Coll Radiol 11:238-242.
- Brody AS et al (2014) Don’t let radiation scare trump patient care: 10 ways you can harm your patients by fear of radiation-induced cancer from diagnostic imaging.
Thorax 69:782-784 .
- Brook OR,
Gourtsoyianni S,
Brook A,
Siewert B,
Kent T,
Raptopoulos V.
Split-Bolus Spectral Multidetector CT of the Pancreas: Assessment of Radiation Dose and Tumor Conspicuity.
Radiology 2013;269(1):139-48.
- Chen B,
Ramirez Giraldo JC,
Solomon J,
Samei E.
Evaluating iterative reconstruction performance in computed tomography.
Med Phys.
2014 Dec;41(12):121913.
- Christianson O,
Chen JJ,
Yang Z,
Saiprasad G,
Dima A,
Filliben JJ,
Peskin A,
Trimble C,
Siegel EL,
Samei E.
An Improved Index of Image Quality for Task-based Performance of CT Iterative Reconstruction across Three Commercial Implementations.
Radiology.
2015 Jun;275(3):725-34.
- Communicating risks in paediatric imaging – WHO 2016 ISBN 978 92 4 151034 9.
- Corwin MT,
Bekele W,
Lamba R.
Bony landmarks on computed tomography localizer radiographs to prescribe a reduced scan range in patients undergoing multidetector computed tomography for suspected urolithiasis.
J Comput Assist Tomogr 2014; 38:404-7.
- Corwin MT,
Chang M,
Fananapazir G,
Seibert A,
Lamba R.
Accuracy and radiation dose reduction a limited abdominopelvic CT in the diagnosis of acute appendicitis.
Abdom Imaging 2015; 40:1177-82.
- Deak PD,
Smal Y,
Kalender WA.
CT Multisection protocols: sex- and age-specific conversion factors used to determine effective dose from dose-length product.
Radiology 2010; 257:158-166.
- Den Harder AM,
Willemink MJ,
De Ruiter QM,
De Jong PA,
Schilham AM,
Krestin GP,
Leiner T,
Budde RP.
Dose reduction with iterative reconstruction for coronary CT angiography: a systematic review and meta-analysis.
Br J Radiol.
2016 Feb;89(1058):20150068.
- European commission,
European guidelines on quality criteria for diagnostic radiographic images in paediatrics,
report 16261
- Funama Y,
Awai K,
Nakayama Y,
et al.
Radiation dose reduction without degradation of low-contrast detectability at abdominal multisection CT with a low-tube voltage technique: phantom study.
Radiology 2005;237(3):905–910.
- G.
Paulo et al.
2016 Analysis of overexposed areas in paediatric plain radiography,
ECR 2016
- Gervaise A,
Osemont B,
Lecocq S,
et al.
CT image quality improvement using Adaptive Iterative Dose Reduction with wide-volume acquisition on 320-detector CT.
Eur Radiol 2012;22(2):295–301.
- Gervaise A,
Teixeira P,
Villani N,
Lecocq S,
Louis M,
Blum A.
Musculoskeletal CT: how to reduce the dose? Poster RSNA 2012,
LL-MKE4361.
- Goske MJ,
Charkot E,
Herrmann T,
John SD,
Mills TT,
Morrison G,
et al.
Image Gently: challenges for radiologic technologists when performing digital radiography in children.
Pediatr Radiol.
2011;41(5):611-9
- Guite KM,
Hinshaw JL,
Lee Jr FT.
Computed Tomography in Abdominal Imaging: How to Gain Maximum Diagnostic Information at the Lowest Radiation Dose,
2013,
available at ttp://dx.doi.org/10.5772/55903 [accessed 11/8/2016]
- Herrmann TL,
Fauber TL,
Gill J,
Hoffman C,
Orth DK,
Peterson P a,
et al.
Best practices in digital radiography.
Radiol Technol.
2012;(1):83–9.
- https://rpop.iaea.org/RPOP/RPoP/Content/News/10-e-learning.htm
- Iball GR,
Brettle DS (2011) Organ and effective dose reduction in adult chest CT using abdominal lead shielding.
Br J Radiology (2011) 84:1020-26
- ICRP Publication 121,
Radiological protection in paediatric diagnostic and interventional radiology
- Johnson JN et al (2014) Cumulative radiation exposure and cancer risk estimation in children with hearth disease.
Circulation 130:161-167.
- Jun-Hyung L,
Chang-Woo R,
Sun-Mi K,
Eui-Jong K Woo-Suk C.
Usefulness of Biphasic Contrast Injection in Multidetector CT of the Head and Neck: A comparison with Monophasic Contrast Injection.
J Korean Soc Radiol 2012;67(2):85-92.
- Kaasalainen T,
Palmu K,
Lampinen A,
Reijonen V,
Leikola J,
Kivisaari R,
Kortesniemi M.
Limiting CT radiation dose in children with craniosynostosis: phantom study using model-based iterative reconstruction.
Pediatr Radiol.
2015 Sep;45(10):1544-53.
- Kalender WA,
Deak P,
Kellermeier M,
van Straten M,
Vollmar SV.
Application- and patient size-dependent optimization of x-ray spectra for CT.
Med Phys 2009;36(3):993-1007.
- Kordolaimi SD,
Argentos S,
Pantos I,
Kelekis NL,
Efstathopoulos EP.
A new era in computed tomographic dose optimization: the impact of iterative reconstruction on image quality and radiation dose.
J Comput Assist Tomogr.
2013 Nov-Dec;37(6):924-31.
- Leung V,
Sastry A,
Woo TD,
Jones HR.
Implementation of a split-bolus single-pass CT protocol at a UK major trauma centre to reduce excess radiation dose in trauma pan-CT.
Clin Radiol 2015;70(10):1110-5.
- Maheshwari E,
O’Malley ME,
Ghai S,
Staunton M,
Masse C.
Split-Bolus MDCT Urography: Upper Tract Opacification and Performance for Upper Tract Tumors in Patients With Hematuria.
AJR 2009;194;453–8.
- McCollough CH,
Chen GH,
Kalender W,
Leng S,
Samei E,
Taguchi K,
Wang G,
Yu L,
Pettigrew RI.
Achieving routine submillisievert CT scanning: report from the summit on management of radiation dose in CT.
Radiology.
2012 Aug;264(2):567-80.
- Medina LS,
et all Evidence-Based Imaging in Pediatrics: Optimizing Imaging in Pediatrics.
Springer.
2010
- Nievelstein RAJ et al.
Multidetector CT in children: current concepts and dose reduction strategies, Pediatr Radiol.
2010; 40(8): 1324–1344
- Samei E,
Richard S.
Assessment of the dose reduction potential of a model-based iterative reconstruction algorithm using a task-based performance metrology.
Med Phys.
2015 Jan;42(1):314-23.
- Samei E.
Pros and cons of organ shielding for CT imaging.
Pediatr Radiol (2014) 44:S495-S500
- Schindera ST,
Nelson RC,
Mukundan S Jr,
et al.
Hypervascular liver tumors: low tube voltage,
high tube current multi-detector row CT for enhanced detection - phantom study.
Radiology 2008;246(1):125–132.
- Shakir K,
Goodman LR,
Lam CA,
Midia EC.
Dose reduction of 69% for computed tomography pulmonary angiography: reduced z-axis computed tomography pulmonary angiography retains accuracy in those younger than 40 years.
J Comput Assist Tomogr 2013; 37:765-9.
- Shin CI,
Kim SH,
Im JP,
Kim SG,
Yu MH,
Lee ES,
Han JK.
One-mSv CT colonography: Effect of different iterative reconstruction algorithms on radiologists' performance.
Eur J Radiol.
2016 Mar;85(3):641-8.
- Singh S,
Kalra M.
Scan parameters and CT radiation dose.
In: Tack D,
Genevois PA,
Kalra M.
(eds).
Radiation dose from multidetector CT.
Springer-Verlag Berlin Heidelberg,
2012,
p369-387.
- Vrtiska,
TJ,
Hartman,
RP,
Kofler JM,
Bruesewitz,
MR,
King,
BF,
McCollough,
CH.
Spatial Resolution and Radiation Dose of a 64-MDCT Scanner Compared with Published CT Urography Protocols.
AJR 2009; 192:941–8.
- Yu L,
Bruesewitz MR,
Thomas KB,
Fletcher JG,
Kofler JM,
McCollough CH.
Optimal tube potential for radiation dose reduction in pediatric CT: principles,
clinical implementations,
and pitfalls.
Radiographics.
2011 May-Jun;31(3):835-48.
- Yu L,
Fletcher JG,
Grant KL,
Carter RE,
Hough DM,
Barlow JM,
Vrtiska TJ,
Williamson EE,
Young PM,
Goss BC,
Shiung M,
Leng S,
Raupach R,
Schmidt B,
Flohr T,
McCollough CH.
Automatic selection of tube potential for radiation dose reduction in vascular and contrast-enhanced abdominopelvic CT.
AJR Am J Roentgenol.
2013 Aug;201(2):W297-306.
- Yu L,
Li H,
Fletcher JG,
McCollough CH.
Automatic selection of tube potential for radiation dose reduction in CT: a general strategy.
Med Phys 2010;37(1):234-243.
- Zacharias et al.
Pediatric CT: Strategies to lower radiation dose,
Am J Roentgenol.
2013; 200(5): 950–956
- Zhang D et al.
Peak skin and eye lens radiation dose from brain perfusion CT based on Monte Carlo simulation,
Am J Roentgenol.
2012; 198(2): 412–417
- Zhang M,
Liu K,
Niu X,
Liu X.
A method to derive appropriate exposure parameters from target exposure index and patient thickness in pediatric digital radiography.
Pediatr Radiol 2013;43(5):568–74.
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