DETECTION OF PULMONARY EMBOLI AT THE SEGMENTAL AND SUBSEGMENTAL LEVELWITH ELECTRON-BEAM CT - VALIDATION IN A PORCINE MODEL

Rationale and Objectives. The authors evaluated the sensitivity of ele ctron-beam computed tomography (CT) in the detection of segmental and subsequential pulmonary artery emboli ina porcine model. Materials and Methods. twenty-one segmental and subsequential branch pulmonary arte ries in five swine were selectively catheterized and embolized with ge latin sponge pledgets. The presence of emboli with gelatin sponge pled gets. The presence of emboli was confirmed by means of contrast materi al-enhanced angiography. Contrast-enhanced CT scans of the pulmonary a rteries were then obtained with 3-mm collimation, 2-mm table travel be tween sections, ans an imaging time of 100 msec per section. Contrast material was injected at a rate of 2-3 mL/sec, depending on the animal 's weight, with a total dose of 60 mL for each scan. Cardiac-grated an d nongrated scans were obtained, but breath holding was possible in th ese animals. Results. Contrast-enhanced electron-beam CT scanning allo wed correct prospective identification of 18 of 21 emboli in the segme ntal and subsegmental branches of the pulmonary arteries. The overall sensitivity was 86%. Cardiac gating subjectivity in the detection of e mboli. The level of sensitivity was not affected by the use of breath holding. Conclusion. Contrast-enhanced electron-beam CT is a sensitive method for the detection of embolism in the segmental and subsegmenta l pulmonary arteries.