@ARTICLE{10.3389/fnins.2016.00576, AUTHOR={Jain, Saurabh and Ribbens, Annemie and Sima, Diana M. and Cambron, Melissa and De Keyser, Jacques and Wang, Chenyu and Barnett, Michael H. and Van Huffel, Sabine and Maes, Frederik and Smeets, Dirk}, TITLE={Two Time Point MS Lesion Segmentation in Brain MRI: An Expectation-Maximization Framework}, JOURNAL={Frontiers in Neuroscience}, VOLUME={10}, YEAR={2016}, URL={https://www.frontiersin.org/articles/10.3389/fnins.2016.00576}, DOI={10.3389/fnins.2016.00576}, ISSN={1662-453X}, ABSTRACT={Purpose: Lesion volume is a meaningful measure in multiple sclerosis (MS) prognosis. Manual lesion segmentation for computing volume in a single or multiple time points is time consuming and suffers from intra and inter-observer variability.Methods: In this paper, we present MSmetrix-long: a joint expectation-maximization (EM) framework for two time point white matter (WM) lesion segmentation. MSmetrix-long takes as input a 3D T1-weighted and a 3D FLAIR MR image and segments lesions in three steps: (1) cross-sectional lesion segmentation of the two time points; (2) creation of difference image, which is used to model the lesion evolution; (3) a joint EM lesion segmentation framework that uses output of step (1) and step (2) to provide the final lesion segmentation. The accuracy (Dice score) and reproducibility (absolute lesion volume difference) of MSmetrix-long is evaluated using two datasets.Results: On the first dataset, the median Dice score between MSmetrix-long and expert lesion segmentation was 0.63 and the Pearson correlation coefficient (PCC) was equal to 0.96. On the second dataset, the median absolute volume difference was 0.11 ml.Conclusions: MSmetrix-long is accurate and consistent in segmenting MS lesions. Also, MSmetrix-long compares favorably with the publicly available longitudinal MS lesion segmentation algorithm of Lesion Segmentation Toolbox.} }