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Radiation risks in paedriatic interventional cardiology. L 10. Educational Objective. Unique considerations in paediatric patients having bearing on patient dose How can dose be managed in paediatric patients. Unique Considerations for Radiation Exposure in Children.
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Radiation risks in paedriatic interventional cardiology L 10
Educational Objective • Unique considerations in paediatric patients having bearing on patient dose • How can dose be managed in paediatric patients Lecture 10: Radiation risks in paediatric interventional cardiology
Unique Considerations for Radiation Exposure in Children • There are two unique considerations in children: • Children are considerably more sensitive to radiation than adults • Children also have a longer life expectancy, resulting in a larger window of opportunity for expressing radiation damage. • As an example, compared with a 40-year old, the same radiation dose given to a neonate is several times more likely to produce a cancer over the child's lifetime. • Great attention to not optimised procedures in CT examinations: • the same exposure parameters used for a child and an adult will result in larger doses to the child • there is no need for these larger doses to children. Currently, adjustments are not frequently made in the exposure parameters Lecture 10: Radiation risks in paediatric interventional cardiology
Unique Considerations for Radiation Exposure in Children CT as a Diagnostic Tool It will address the following issues: • CT as a diagnostic tool • Unique considerations for radiation • Radiation risks from CT in children:a public health issue • Immediate strategies to minimizeCT radiation exposure to children Lecture 10: Radiation risks in paediatric interventional cardiology
Risk probability for stochastic effects as a function of age at exposure Lecture 10: Radiation risks in paediatric interventional cardiology
Epidemiology evidences (I) Ionizing radiation and cancer risk: evidence from epidemiologyRon E.Radiat Res. 1998 Nov;150(5 Suppl):S30-41 • ….. For all solid cancers combined, cancers of the thyroid, breast and lung, and leukemia, risk estimates are fairly precise, and associations have been found at relatively low doses (<0.2 Gy). • Associations between radiation and cancers of the salivary glands, stomach, colon, bladder, ovary, central nervous system and skin have also been reported, but the relationships are not as well quantified. ….. Lecture 10: Radiation risks in paediatric interventional cardiology
Epidemiology evidences (II) Radiation-induced skin cancer in humansShore RE. Med Pediatr Oncol. 2001 May;36(5):549-54 • ... The Japanese atomic bomb study indicates that doses of radiation under about 1 Gy confer less risk per unit dose than higher doses do. • … skin cancer risk is greater from radiation exposure at young ages than at older ages…... • … available evidence indicates that the excess risk of skin cancer lasts for 45 years or more following irradiation … Lecture 10: Radiation risks in paediatric interventional cardiology
Epidemiology evidences (III) • Cancer risks from medical radiationRon E. Health Phys. 2003 Jul;85(1):47-59 • Because doses from diagnostic examinations typically are low, they are difficult to study using epidemiological methods, unless multiple examinations are performed… • An excess risk of breast cancer has been reported among women: • with tuberculosis who had multiple chest fluoroscopies • scoliosis patients who had frequent diagnostic x rays during late childhood and adolescence. Lecture 10: Radiation risks in paediatric interventional cardiology
Frequency of cardiac intervention in pediatrics Spanish Registry on Cardiac Catheterization and Coronary Interventions. (1990-2002)]Data from 101 centers …6 carried out only pediatric procedures. … a total increase of 5.1% in comparison to 2001. • The population-adjusted rate: • 2,053 coronary angiograms per million inhabitants • 850 coronary interventions per million inhabitants • Coronary interventions increased by 11% in comparison to 2001 • Stenting accounted for 91.7% of all procedures • Direct stenting was done in 13 768 procedures (43.2%). Multivessel percutaneous in 9,830 patients (28%), and ad hoc interventions in 26,341 patients (76%). • … and the slight increase in pediatric interventions (3.7%). Lecture 10: Radiation risks in paediatric interventional cardiology
Indications for interventions in pediatric cardiology • Interventional catheterization in pediatric cardiology: tools and indications Boudjemline Y., Arch Pediatr. 2004 Mar;11(3):276-84. • During the last decade, a remarkable number of transcatheter methods were developed: • balloon dilatation to treat vascular or valvular obstructive lesions, • intravascular stents to manage obstructive lesions that cannot be satisfactorily balloon-dilated, • transcatheter closure of atrial septal defects, patent ductus arteriosus, • and ventricular septal defect. • More recently, pulmonary valve replacement has become possible through a percutaneous technique Lecture 10: Radiation risks in paediatric interventional cardiology
Indications for interventions in pediatric cardiology Future of interventional cardiology in pediatricsLevi DS, Alejos JC, Moore JW. Curr Opin Cardiol. 2003 Mar;18(2):79-90. • A trend toward use of less invasive, non-surgical approaches to the treatment of congenital heart disease has developed • Additionally, fetal catheter-based interventions are being developed for the treatment of severe congenital heart disease in utero • Trend toward catheter-mediated treatment is certain to continue, care must be taken to regulate safely the introduction of novel techniques and devices into clinical use Lecture 10: Radiation risks in paediatric interventional cardiology
Radiation Exposure to Children during various interventions(I) • Coil occlusion of the patent ductus arteriosus (PDA) as well as other morecomplex pediatric interventions has raised concern regarding radiation exposure • Nocorrelation between fluoroscopy time and measured entrance dose • Strongest correlation cumulative dose vs. patient weight and BSAJ. Donald Moore,David Shim, John Sweet,Kristopher L. Arheartand Robert H. Beekman III,Catheterization and Cardiovascular Interventions 47:449–454 (1999) David Shim,Thomas R. Kimball, Erik C. Michelfelder, Lisa Koons, RNand Robert H. Beekman,Catheterization and Cardiovascular Interventions 51:451–454 (2000) DC=diagnostic catheterization, PDA=Coil occlusion of the patent ductus arteriosus, PBV=pulmonary balloon valvuloplasty Lecture 10: Radiation risks in paediatric interventional cardiology
Radiation Exposure to Children during various interventions(II) • Cumulative skin dose is well correlated with patient size and not with fluoroscopy time Lecture 10: Radiation risks in paediatric interventional cardiology
Radiation Exposure to Children during various interventions(III) Comparison of surface entrance doses of radiation. A:Present study (Amplatzer atrial septal defect closure). B: Mooreet al. [6] (patent ductus coil occlusion). C: Moore et al. [6](pulmonary valvuloplasty). D: Wu et al. [8] (pulmonary valvuloplasty).E: Park et al. [10] (arhythmia ablation). F: Rosenthal etal. [11] (arhythmia ablation). Lecture 10: Radiation risks in paediatric interventional cardiology
Occupational exposure in pediatric interventions • Although pediatric cardiologists have been performing cardiaccatheterizations in infants and children for over 30 years,data regarding their occupational exposure are sparse • Radiation exposureduring arrhythmia ablation procedures in children, asmeasured by fluoroscopy duration, has been shown to becomparable to adults Lecture 10: Radiation risks in paediatric interventional cardiology
Summary • Increased radiation risks for pediatric patients • Evidence of increased number of pediatric interventional procedures • Radiation doses can be high • Very few dosimetric studies • Radiological technique must be optimised and tailored to small body sizes: • Re-consider the need of antiscatter grid (doserate x 2) • Avoid electronic magnifications • Use collimations (reduce imparted energy, organ and effective dose) • Image intensifier close to patient skin Lecture 10: Radiation risks in paediatric interventional cardiology