Unique MS Lesion Identification from MRI
This work addresses the need for more meaningful statistics from white matter lesions in brain MRIs for medical researchers, but it is incremental as it builds on prior methods.
The paper tackles the problem of uniquely identifying multiple sclerosis lesions from MRI to better characterize disease progression, achieving accurate lesion counting and volume capture as demonstrated on synthetic images.
Unique identification of multiple sclerosis (MS) white matter lesions (WMLs) is important to help characterize MS progression. WMLs are routinely identified from magnetic resonance images (MRIs) but the resultant total lesion load does not correlate well with EDSS; whereas mean unique lesion volume has been shown to correlate with EDSS. Our approach builds on prior work by incorporating Hessian matrix computation from lesion probability maps before using the random walker algorithm to estimate the volume of each unique lesion. Synthetic images demonstrate our ability to accurately count the number of lesions present. The takeaways, are: 1) that our method correctly identifies all lesions including many that are missed by previous methods; 2) we can better separate confluent lesions; and 3) we can accurately capture the total volume of WMLs in a given probability map. This work will allow new more meaningful statistics to be computed from WMLs in brain MRIs