Document detail
ID
oai:arXiv.org:2408.02929
Topic
Computer Science - Computer Vision...Author
Shang, Liang Lou, Zhengyang Alexander, Andrew L. Prabhakaran, Vivek Sethares, William A. Nair, Veena A. Adluru, NageshCategory
Computer Science
Year
2024
listing date
8/14/2024
Keywords
labeling dbl 0 lesionAbstract
Deep neural networks have demonstrated exceptional efficacy in stroke lesion segmentation.
However, the delineation of small lesions, critical for stroke diagnosis, remains a challenge.
In this study, we propose two straightforward yet powerful approaches that can be seamlessly integrated into a variety of networks: Multi-Size Labeling (MSL) and Distance-Based Labeling (DBL), with the aim of enhancing the segmentation accuracy of small lesions.
MSL divides lesion masks into various categories based on lesion volume while DBL emphasizes the lesion boundaries.
Experimental evaluations on the Anatomical Tracings of Lesions After Stroke (ATLAS) v2.0 dataset showcase that an ensemble of MSL and DBL achieves consistently better or equal performance on recall (3.6% and 3.7%), F1 (2.4% and 1.5%), and Dice scores (1.3% and 0.0%) compared to the top-1 winner of the 2022 MICCAI ATLAS Challenge on both the subset only containing small lesions and the entire dataset, respectively.
Notably, on the mini-lesion subset, a single MSL model surpasses the previous best ensemble strategy, with enhancements of 1.0% and 0.3% on F1 and Dice scores, respectively.
Our code is available at: https://github.com/nadluru/StrokeLesSeg.
Shang, Liang,Lou, Zhengyang,Alexander, Andrew L.,Prabhakaran, Vivek,Sethares, William A.,Nair, Veena A.,Adluru, Nagesh, 2024, Segmenting Small Stroke Lesions with Novel Labeling Strategies
Utility of Photon-Counting Detector CT Myelography for the Detection of CSF-Venous Fistulas
imaging photon-counting myelography
