Skip to main content
Key Specialties
Cardiology Diabetology Endocrinology Gastroenterology Geriatrics and Gerontology Gynecology and Obstetrics Hematology Infectious Disease Internal Medicine Nephrology Neurology Oncology Pediatrics Respiratory Medicine Rheumatology Surgery
Congress Coverage
2024 ACC Congress 2023 ESMO Congress 2023 EASD Congress 2023 ERS Congress 2023 ESC Congress
Clinical Collections
Advances in Alzheimer’s

Keynote webinar | Spotlight on medication adherence

LIVE: Thursday 27th June 2024, 18:00-19:30 (CEST)
Join our expert panel to discover why you need to understand the drivers of non-adherence in your patients, and how you can optimize medication adherence in your clinics to drastically improve patient outcomes.
ADVANCED SEARCH
Log in
Top
Radiological Physics and Technology
Published in: Radiological Physics and Technology 2/2018

01-06-2018

Effective-dose estimation in interventional radiological procedures

Authors: Maria D. Falco, Salvatore Masala, Matteo Stefanini, Paolo Bagalà, Daniele Morosetti, Eros Calabria, Alessia Tonnetti, Gianluca Verona-Rinati

Published in: Radiological Physics and Technology | Issue 2/2018

Login to get access

Abstract

Interventional radiology is based on minimally invasive procedures that allow diagnosis and percutaneous treatment of diseases in almost all organ systems. Such procedures have many benefits, but they also contribute significantly to collective radiation dose. In this regard, effective dose (E) is a convenient quantity to estimate patients’ stochastic radiation risk. However, E cannot be accurately evaluated immediately. In the present study, we aimed to estimate the E value in 15 selected interventional procedures. The estimation was based on dose area product (DAP) measurements and used case-specific conversion coefficients. The E values ranged from 3.3 to 69.9 mSv, depending on the kind of procedure. This wide range was mainly due to the broad variation in DAP values, which in turn depend on the details of how the procedures are performed. This suggests that to ensure valid comparative studies and universal reference levels, all interventional procedures should be well classified.
Literature
1.
McParland BJ. A study of patient radiation doses in interventional radiological procedures. Br J Radiol. 1998;71:175–85.CrossRefPubMed
2.
Miller DL, Balter S, Wagner LK, Cardella J, Clark TWI, Neithamer CD, Schwartzberg MS, Swan TL, Towbin RB, Rholl KS, Sacks D. Quality improvement guidelines for recording patient radiation dose in the medical record. J VascIntervRadiol. 2004;15:423–9.
3.
Balter S, Hopewell JW, Miller DL, Wagner LK, Zelefsky MJ. Fluoroscopically guided interventional procedures: a review of radiation effects on patients’ skin and hair. Radiology. 2010;254(2):326–41.CrossRefPubMed
4.
Falco MD, Masala S, Stefanini M, Fiori R, Gandini R, Bagalà P, Morosetti D, Calabria E, Tonnetti A, Verona-Rinati G, Santoni R, Simonetti G. Patient skin dose measurements using a cable free system MOSFETs based in fluoroscopically guided percutaneous vertebroplasty, percutaneous disc decompression, radiofrequency medial branch neurolysis, and endovascular critical limb ischemia. J. Appl. Clin. Med Phys. 2015;16(1):298–310.CrossRefPubMedCentral
5.
Söderman M, Mauti M, Boon S, Omar A, Marteinsdóttir M, Andersson T, Holmin S, Hoornaert B. Radiation dose in neuroangiography using image noise reduction technology: a population study based on 614 patients. Neuroradiology. 2013;55:1365–72.CrossRefPubMedPubMedCentral
6.
Euratom BSS. Council Directive 2013/59 EURATOM of 5 December 2013 Laying Down the Basic Safety Standards for the Protection of the Health of Workers and the General Public against the Dangers Arising from Ionizing Radiation, and Repealing Directives 89/618/Euratom. 2013.
7.
International Commission on Radiological Protection. Recommendations of the International Commission on Radiological Protection. ICRP Publication 103. Ann. ICRP. 2007;37:1–332.
8.
Schultz FW, Zoetelief J. Dose conversion coefficients for interventional procedures. RadiatProtDosim. 2005;117:225–30.
9.
Bor D, Sancak T, Olgar T, Elcim Y, Adanali A, Sanlidilek U, Akyar S. Comparison of effective doses obtained from dose-area product and air kerma measurements in interventional radiology. Br J Radiol. 2004;77:315–22.CrossRefPubMed
10.
Compagnone G, Giampalma E, Domenichelli S, Renzulli M, Golfieri R. Calculation of conversion factors for effective dose for various interventional radiology procedures. Med Phys. 2012;39(5):2491–8.CrossRefPubMed
11.
Fitousi NT, Efstathopoulos EP, Delis HB, Kottou S, Kelekis AD, Panayiotakis GS. Patient and staff dosimetry in vertebroplasty. Spine. 2006;31(23):E884–9.CrossRefPubMed
12.
Von Wrangel A, Cederblad A, Rodriguez-Catarino M. Fluoroscopically guided percutaneous vertebroplasty: assessment of radiation doses and implementation of procedural routines to reduce operator exposure. Acta Radiol. 2009;50:490–6.CrossRef
13.
Molyvda-Athanasopoulou E, Karlatira M, Gotzamani-Psarrakou A, Koulouris C, Siountas A. Radiation exposure to patients and radiologists during interventional procedures. RadiatProtDosim. 2011;147(1–2):86–9.
14.
Tappero C, Barbero S, Costantino S, Bergui M, Ropolo R, Bradac G, Gandini G. Patient and operator exposure during percutaneous vertebroplasty. Radiol Med. 2009;114:595–607.CrossRefPubMed
15.
Smans K, Struelens L, Hoornaert MT, Bleeser F, Buls N, Bosmans H. A study of the correlation between dose area product and effective dose in vascular radiology. RadiatProtDosim. 2008;130:300–8.
16.
Hart D, Jones DG, Wall BF. Estimation of effective dose in diagnostic radiology from entrance surface dose and dose-area product measurements. National Radiological Protection Board, Chilton. Technical Report NRPB-R262. (1994).
17.
Balter S, Miller DL, Vano E, Ortiz Lopez P, Bernardi G, Cotelo E, Faulkner K, Nowotny R, Padovani R, Ramirez AA. pilot study exploring the possibility of establishing guidance levels inx-ray directed interventional procedures. Med Phys. 2008;35:673–80.CrossRefPubMed
18.
Faulkner K, Busch HP, Cooney P, Malone JF, Marshall NW, Rawlings DJ. An international intercomparison of dose-area product meters. RadiatProtDosim. 1002;43:131–4.
19.
International Commission on Radiation Units and Measurements. Patient dosimetry for X rays used in medical imaging. ICRU Report 74. J. ICRU. 2005;5(2):1–113.
20.
International Electrotechnical Commission. Area exposure product meter. IEC Report 580, Geneva (1977).
21.
Wall BF. Quality control of dose-area product meters. Technical and Physical Parameters for Quality Assurance in Medical Radiology, BIR Report 18, 140-142. Moores BM, Stieve FE, Eriskat H, Schibilla H (BIR, London, 1989).
22.
International Atomic Energy Agency. Dosimetry in diagnostic radiology: An international code of practice. Technical Reports Series 457. IAEA, Vienna (2007).
23.
Vano E, Sanchez R, Fernandez JM, Gallego JJ, Verdu JF, Gonzalez de Garay M, Azpiazu A, Segarra A, Hernandez MT, Canis M, et al. Patient dose reference levels for interventional radiology: a national approach. CardiovascInterventRadiol. 2009;32:19–24.
24.
Miller DL, Kwon D, Bonavia GH. reference levels for patient radiation dose in interventional radiology: proposed initial values for U.S. practice. Radiology. 2009;253(3):753–64.CrossRefPubMedPubMedCentral
25.
Topaltzikis T, Rountas C, Moisidou R, Fezoulidis I, Kappas C, Theodorou K. Radiation dose to patients and staff during angiography of the lower limbs. Derivation of local dose reference levels. Phys. Medica. 2009;25:25–30.
26.
Miller DL, Balter S, Cole PE, Lu HT, Schueler BA, Geisinger M, Berenstein A, Albert R, Georgia JD, Noonan PT, et al. Radiation doses in interventional radiology procedures: the RAD-IR study part i: overall measures of dose. J VascIntervRadiol. 2003;14:711–27.
27.
Padovani R, Quai E. Patient Dosimetry approaches in interventional Cardiology and literature dose data review. RadiatProtDosim. 2005;117(1–3):217–21.
28.
Perisinakis K, Damilakis J, Theocharopoulos N, Papadokostakis G, Hadjipavlou A, Gourtsoyiannis N. Patient exposure and associated radiation risks from fluoroscopically guided vertebroplasty or kyphoplasty. Radiology. 2004;232(3):701–7.CrossRefPubMed
29.
Sapiin B, Ng KH, Abdullah BJJ. Radiation Dose to Patients Undergoing Interventional Radiological Procedures in Selected Hospitals in Malaysia: Retrospective Study. J.H.K. CollRadiol. 2004; 7:129–136.
30.
Struelens L, Vanhavere F, Bosmans H, Van Loon R. Effective doses in angiography and interventional radiology: calculation of conversion coefficients for angiography of the lower limbs. Br J Radiol. 2005;78:135–42.CrossRefPubMed
31.
Hidajat N, Wust P, Felix R, Schroder RJ. Radiation exposure to patient and staff in epatic chemoembolization: risk estimation of cancer and deterministic effects. CardiovascInterventRadiol. 2006;29:791–6.
32.
Hart, D. and Wall, B. F. Radiation Exposure of the UK Population from Medical and Dental X-ray Examinations. National Radiological Protection Board, Chilton. NRPB –W4. (2002).
33.
Ector J, Dragusin O, Adriaenssens B, Huybrechts W, Willems R, Ector H, et al. Obesity is a major determinant of radiation dose in patients undergoing pulmonary vein isolation for atrial fibrillation. J Am Coll Card. 2007;50(3):234–42.CrossRef
Metadata
Title
Effective-dose estimation in interventional radiological procedures
Authors
Maria D. Falco
Salvatore Masala
Matteo Stefanini
Paolo Bagalà
Daniele Morosetti
Eros Calabria
Alessia Tonnetti
Gianluca Verona-Rinati
Publication date
01-06-2018
Publisher
Springer Singapore
Published in
Radiological Physics and Technology / Issue 2/2018
Print ISSN: 1865-0333
Electronic ISSN: 1865-0341
DOI
https://doi.org/10.1007/s12194-018-0446-5

Other articles of this Issue 2/2018

Radiological Physics and Technology 2/2018 Go to the issue

OriginalPaper

Myocardial motion analysis based on an optical flow method using tagged MR images

OriginalPaper

Usefulness of model-based iterative reconstruction in semi-automatic volumetry for ground-glass nodules at ultra-low-dose CT: a phantom study

OriginalPaper

Utility of the variable flip angle 3D fast-spin echo (isoFSE) sequence on 3T MR for diagnosing vertebrobasilar artery dissection

OriginalPaper

Evaluation of surface dose and image quality using the half-scan mode in chest computed tomography-guided interventional radiology: a phantom study

OriginalPaper

Dosimetric changes with computed tomography automatic tube-current modulation techniques

OriginalPaper

Effect of region extraction and assigned mass-density values on the accuracy of dose calculation with magnetic resonance-based volumetric arc therapy planning