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Principal component analysis of breast DCE-MRI adjusted with a model-based method

✍ Scribed by Erez Eyal; Daria Badikhi; Edna Furman-Haran; Fredrick Kelcz; Kevin J. Kirshenbaum; Hadassa Degani

Book ID
102905890
Publisher
John Wiley and Sons
Year
2009
Tongue
English
Weight
903 KB
Volume
30
Category
Article
ISSN
1053-1807

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✦ Synopsis

Abstract

Purpose:

To investigate a fast, objective, and standardized method for analyzing breast dynamic contrast‐enhanced magnetic resonance imaging (DCE‐MRI) applying principal component analysis (PCA) adjusted with a model‐based method.

Materials and Methods:

3D gradient‐echo DCE breast images of 31 malignant and 38 benign lesions, recorded on a 1.5T scanner, were retrospectively analyzed by PCA and by the model‐based three‐timepoints (3TP) method.

Results:

Intensity‐scaled (IS) and enhancement‐scaled (ES) datasets were reduced by PCA yielding a first IS‐eigenvector that captured the signal variation between fat and fibroglandular tissue; two IS‐eigenvectors and the two first ES‐eigenvectors captured contrast‐enhanced changes, whereas the remaining eigenvectors captured predominantly noise changes. Rotation of the two contrast‐related eigenvectors led to a high congruence between the projection coefficients and the 3TP parameters. The ES‐eigenvectors and the rotation angle were highly reproducible across malignant lesions, enabling calculation of a general rotated eigenvector base. Receiver operating characteristic (ROC) curve analysis of the projection coefficients of the two eigenvectors indicated high sensitivity of the first rotated eigenvector to detect lesions (area under the curve [AUC] > 0.97) and of the second rotated eigenvector to differentiate malignancy from benignancy (AUC = 0.87).

Conclusion:

PCA adjusted with a model‐based method provided a fast and objective computer‐aided diagnostic tool for breast DCE‐MRI. J. Magn. Reson. Imaging 2009;30:989–998. © 2009 Wiley‐Liss, Inc.

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