Numerical Simulations of Carotid MRI Quantify the Accuracy in Measuring Atherosclerotic Plaque Components In Vivo

Harm Nieuwstadt, TR Geraedts, MTB Truijman, ME Kooi, Aad van der Lugt, Ton van der Steen, Jolanda Wentzel, M Breeuwer, Frank Gijsen

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Abstract

Purpose: Atherosclerotic carotid plaques can be quantified in vivo by MRI. However, the accuracy in segmentation and quantification of components such as the thin fibrous cap (FC) and lipid-rich necrotic core (LRNC) remains unknown due to the lack of a submillimeter scale ground truth. Methods: A novel approach was taken by numerically simulating in vivo carotid MRI providing a ground truth comparison. Upon evaluation of a simulated clinical protocol, MR readers segmented simulated images of cross-sectional plaque geo-metries derived from histological data of 12 patients. Results: MR readers showed high correlation (R) and intraclass correlation (ICC) in measuring the luminal area (R = 0.996, ICC = 0.99), vessel wall area (R = 0.96, ICC = 0.94) and LRNC area (R = 0.95, ICC = 0.94). LRNC area was underestimated (mean error, -24%). Minimum FC thickness showed a mediocre correlation and intraclass correlation (R = 0.71, ICC = 0.69). Conclusion: Current clinical MRI can quantify carotid plaques but shows limitations for thin FC thickness quantification. These limitations could influence the reliability of carotid MRI for assessing plaque rupture risk associated with FC thickness. Overall, MRI simulations provide a feasible methodology for assessing segmentation and quantification accuracy, as well as for improving scan protocol design. (C) 2013 Wiley Periodicals, Inc.
Original languageUndefined/Unknown
Pages (from-to)188-201
Number of pages14
JournalMagnetic Resonance in Medicine
Volume72
Issue number1
DOIs
Publication statusPublished - 2014

Research programs

  • EMC COEUR-09
  • EMC NIHES-03-30-01

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