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Radiation Sources in medicine diagnostic Radiology Interventional Radiology IAEA International Atomic Energy Agency Day 7 – Lecture 1(3) Objective • To become familiar with the technology and operation of interventional radiology x-ray systems. • To become familiar with the specific radiation risks for patients and staff associated with interventional radiology. IAEA 2 Contents • Description of interventional radiology x-ray systems. • Equipment malfunction affecting radiation protection. • Criteria of acceptability and quality control. IAEA 3 Interventional Radiology Interventional radiology uses x-ray imaging to guide the placement of catheters, stents etc. in blood vessels and organs for the purpose of correcting or treating a particular condition. IAEA 4 Interventional Radiology (cont) When contrast media is used to outline blood vessels, the technique of digital subtraction angiography (DSA) may also be used. During DSA, a “negative” digital fluoroscopic image of the body part under examination is digitally combined Queensland Diagnostic Imaging with each frame of the subsequent The resultant image (in fluoroscopic image while a contrast real time or recorded) is medium is injected into the blood displayed largely free of vessels. anatomy that might otherwise obscure the IAEA blood vessels. 5 Interventional Radiology (cont) A fluoroscopic system that can be used for DSA and interventional radiology. IAEA 6 Interventional Radiology (cont) • Comprises fluoroscopically guided invasive procedures that predominantly have a therapeutic objective. Access to the organ or vessel of interest is usually percutaneous and generally performed under local anesthesia and / or sedation. • Fluoroscopy is commonly used but computed tomography and ultrasound may also be used. • Compared to other fluoroscopic procedures, fluoroscopic exposure times can be long and may be combined with extensive radiographic exposures. • Patient and staff radiation doses can be high. IAEA 7 Interventional Radiology (cont) • Fluoroscopic systems used for interventional radiology must comply with the basic requirements that are applicable to fluoroscopic equipment (Module 2.4). • Because the accumulated patient dose may be high, the equipment shall incorporate a continuous indication of patient dose such as a Dose-Area Product meter. • A device must indicate the total elapsed fluoroscopic exposure time for each patient and provide an audible warning to the fluoroscopist at a predetermined interval, preferably not exceeding 5 minutes. IAEA 8 Malfunctions affecting radiation protection The types of malfunctions that should be considered are: • generator, x-ray tube and imaging system deficiencies listed in Modules 2.1 and 2.2, and • fluoroscopy system problems listed in Module 2.4. IAEA 9 Problems affecting radiation protection Assuming appropriate dedicated equipment is used, it functions correctly, is properly maintained and is subject to a quality assurance programme, other causes of avoidable patient and staff exposure during interventional radiology might result from: • complex procedures which are not optimized (exposure parameters, the number of images acquired, dose rate, patient positioning, etc.); • inadequate radiation protection training received by interventional physicians. IAEA 10
