Evaluation of multislice spiral CT for the diagnosis of pulmonary embolism

Abstract

Pulmonary embolism (PE) is a severe frequent disease with lack of specific symptoms and represents a major diagnostic challenge. In the past few years, single-slice spiral CT angiography has gained acceptance as a minimally invasive method of evaluating patients with suspicion of PE. The main limitation of single-slice spiral CT resides in the poor detection of subsegmental or more distal PE. This limited detection is not explained by an insufficient vascular distension during spiral CT acquisition but probably by an insufficient spatial resolution. Moreover, in some situations spiral CT is penalized by pulmonary angiography which is an imperfect gold standard. Today Multislice CT can acquire 2 up to 64 slices in a single rotation with isotropic resolution. This technique can cover the entire chest in 1-mm slice thickness or less, in one short breath-hold and allows a better analysis of peripheral pulmonary arteries with a better depiction of sub-segmental and peripheral clots. It also reduces or eliminates artefacts produced by patient movement and decreases the x-ray tube heating that can constrain singleslice scanning parameters. Acquisition of the lower extremities can be performed after chest CT, allowing detection of deep vein thrombosis and one stop shopping of the venous thromboembolic disease. The diagnostic accuracy of multislice CT is probably similar or superior to pulmonary angiography with an inferior delivered radiation dose, a better detection of alternative diagnoses and a continuous decrease of contrast medium injected. Last refinements in CT technology opens new frontiers for a functional approach of PE and predict its prognosis. For all the above-mentioned reasons, it seems obvious that multislice CT will definitively replace pulmonary angiography for diagnostic purposes and will represent a superb tool to better understand the physiopathology of this frequent and potentially life-threatening disorder.(MED 3) -- UCL, 200