PT - JOURNAL ARTICLE AU - R. Bitar AU - A.R. Moody AU - S. Symons AU - G. Leung AU - S. Crisp AU - A. Kiss AU - A. Nelson AU - R. Maggisano TI - Carotid Atherosclerotic Calcification Does Not Result in High Signal Intensity in MR Imaging of Intraplaque Hemorrhage AID - 10.3174/ajnr.A2126 DP - 2010 Sep 01 TA - American Journal of Neuroradiology PG - 1403--1407 VI - 31 IP - 8 4099 - http://www.ajnr.org/content/31/8/1403.short 4100 - http://www.ajnr.org/content/31/8/1403.full SO - Am. J. Neuroradiol.2010 Sep 01; 31 AB - BACKGROUND AND PURPOSE: Calcium can potentially shorten T1, generating high signal intensity in GREs. Because IPH appears as high signal intensity in MRIPH and the surface effects of calcium can potentially shorten T1 of surrounding water protons, the purpose of this study was to evaluate whether the high signal intensity seen on MRIPH could be attributed solely to IPH and not calcification. MATERIALS AND METHODS: Eleven patients undergoing carotid endarterectomy were imaged by using MRIPH. Calcification was assessed by scanning respective endarterectomy specimens with a tabletop MicroCT. MRIPH/MicroCT correlation used an 8-segment template. Two readers evaluated images from both modalities. Agreement between MRIPH/MicroCT was measured by calculating Cohen κ. RESULTS: High signal intensity was seen in 58.8% and 68.9% (readers 1 and 2, respectively) of MRIPH segments, whereas calcification was seen in 44.7% and 32.1% (readers 1 and 2, respectively) of MicroCT segments. High signal intensity seen by MRIPH showed very good but inverse agreement to calcification (κ = −0.90; P < .0001, 95% CI, −0.93 to −0.86, reader 1; and κ = −0.74; P < .0001; 95% CI, −0.81 to −0.69, reader 2). Most interesting, high signal intensity demonstrated excellent agreement with lack of calcification on MicroCT (κ = 0.92; P < .0001; 95% CI, 0.89–0.94, reader 1; and κ = 0.97; P < .0001; 95% CI, 0.96–0.99, reader 2). In a very small number of segments, high signal intensity was seen in MRIPH, and calcification was seen on MicroCT; however, these represented a very small proportion of segments with high signal intensity (5.9% and 1.6%, readers 1 and 2, respectively). CONCLUSIONS: High signal intensity, therefore, reliably identified IPH, known to describe complicated plaque, rather than calcification, which is increasingly recognized as identifying more stable vascular disease. AHAAmerican Heart AssociationCIconfidence intervalFSEfast spin-echoGREgradient-recalled echoIPHintraplaque hemorrhageMRIPHMR imaging of intraplaque hemorrhage