Info hash | 9c0c157394f33376012516ba2ee2072187b10175 |
Last mirror activity | 8:25 ago |
Size | 3.85GB (3,852,576,886 bytes) |
Added | 2023-11-29 23:20:22 |
Views | 244 |
Hits | 259 |
ID | 5108 |
Type | multi |
Downloaded | 2224 time(s) |
Uploaded by | joecohen |
Folder | cxas |
Num files | 4 files [See full list] |
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cxas (4 files)
paxray_train_val.json.gz | 264.97MB |
paxray_test.json.gz | 29.34MB |
paxray_images_unfiltered.tar.gz | 2.12GB |
labels.zip | 1.44GB |
Type: Dataset
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Bibtex:
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Bibtex:
@article{, title= {PAX-Ray++ dataset}, keywords= {}, author= {}, abstract= {https://i.imgur.com/TMpYiL9.png Purpose: Interpreting chest radiographs (CXR) remains challenging due to the ambiguity of overlapping structures such as the lungs, heart, and bones. To address this issue, we propose a novel method for extracting fine-grained anatomical structures in CXR using pseudo-labeling of three-dimensional computed tomography (CT) scans. Methods: We created a large-scale dataset of 10,021 thoracic CTs with 157 labels and applied an ensemble of 3D anatomy segmentation models to extract anatomical pseudo-labels. These labels were projected onto a two-dimensional plane, similar to the CXR, allowing the training of detailed semantic segmentation models for CXR without any manual annotation effort. Results: Our resulting segmentation models demonstrated remarkable performance on CXR, with a high average model-annotator agreement between two radiologists with mIoU scores of 0.93 and 0.85 for frontal and lateral anatomy, while inter-annotator agreement remained at 0.95 and 0.83 mIoU. Our anatomical segmentations allowed for the accurate extraction of relevant explainable medical features such as the cardio-thoracic-ratio. Conclusion: Our method of volumetric pseudo-labeling paired with CT projection offers a promising approach for detailed anatomical segmentation of CXR with a high agreement with human annotators. This technique may have important clinical implications, particularly in the analysis of various thoracic pathologies. ``` @inproceedings{Seibold_2023_CXAS, author = {Constantin Seibold, Alexander Jaus, Matthias Fink, Moon Kim, Simon Reiß, Jens Kleesiek*, Rainer Stiefelhagen*}, title = {Accurate Fine-Grained Segmentation of Human Anatomy in Radiographs via Volumetric Pseudo-Labeling}, year = {2023}, } ```}, terms= {}, license= {https://creativecommons.org/licenses/by-nc-sa/4.0/}, superseded= {}, url= {https://github.com/ConstantinSeibold/ChestXRayAnatomySegmentation/} }