J Korean Radiol Soc.  2005 May;52(5):313-320. 10.3348/jkrs.2005.52.5.313.

The Structures Mimicking Aneurysm on 3-Dimensional Volume Rendering CT Angiography Using A 16-Row Detector CT

Affiliations
  • 1Department of Diagnostic Radiology, College of Medicine, Dong-A University, Korea. sschoi317@yahoo.co.kr
  • 2Department of Neurosurgery, College of Medicine, Dong-A University, Korea.

Abstract

PURPOSE: This study was conducted to identify the structures that can mimic aneurysm on CT angiography with using the 3-D volume rendering technique and a 16-row detector CT.
MATERIALS AND METHODS
This study examined 206 patients who underwent CT angiography with a 16-row detector CT from May 2003 to July 2004. For the CT angiography, the contrast media was injected at a rate of 4 cc per second. The scanning was then done when 5 seconds delay time had elapsed after the CT number of the common carotid artery had reached 150. The baseline images were obtained by reconstructing the row data with a kernel value of H31f, a slice thickness of 1 mm and an increment of 0.5 mm. Finally, the 3-D images were constructed by using a volume rendering technique. The structures that were confused with aneurysm on CT angiography were further evaluated by MPR or MIP to ascertain whether they were aneurysms. For comparison, digital subtraction angiography was done in 86 patients and surgery was done in 5 patients.
RESULTS
On CT angiography, 51 patients did not show any abnormalities, and 80 patients showed definitive aneurysms, as was ascertained by their sizes, shapes and locations, or by the aneurysm clips only. The remaining 75 patients showed 90 aneurysm mimicking structures that were 35 infundibular dilatations or preaneurysmal blebs, 24 focal dilatations of the branches of the deep middle cerebral veins, 6 focal dilatations of the sphenoparietal sinuses adjacent to the middle cerebral artery, 18 focal dilatations of the inferior sagittal sinuses adjacent to the pericallosal artery and 7 low density calcifications of the vessel walls that were adjacent to the aneurysm-prevalent arteries.
CONCLUSION
CT angiography based on volume rendering technique was able to identify the structures that were confused with aneurysm. Accordingly, careful observation is required for interpreting the reconstructing 3-D images since a wide variety of structures can be confused with aneurysm on CT angiography.

Keyword

Aneurysm; CT angiography; Digital subtraction angiography

MeSH Terms

Aneurysm*
Angiography*
Angiography, Digital Subtraction
Arteries
Blister
Carotid Artery, Common
Cerebral Veins
Contrast Media
Dilatation
Humans
Imaging, Three-Dimensional
Middle Cerebral Artery
Contrast Media
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