Pipeline for thigh ultrasound segmentation using nnU-Net and anatomical distance analysis.
Project description
ThighUSSegmentation
Python library for automatic thigh ultrasound segmentation and analysis using nnU-Net.
Features
- Automatic image conversion to
.mha - Preprocessing (active region detection)
- nnU-Net inference
- Muscle thickness computation
- Export of anatomical landmarks (
.mrk.json) - Automatic model download from Zenodo
Installation
pip install thigh-us-segmentation
Usage
from ThighUSSegmentation import run_full_pipeline
result = run_full_pipeline(
input_image_path="image.dcm",
output_root="outputs",
case_id = "case001"
)
print(result["df_results"])
# OR
result = run_full_pipeline(
input_image_path="image.mha",
output_root="outputs",
models_root="D:/my_models", #You can also specify your own model path.
)
Output
outputs/
└── case001/
├── case001_image_converted.mha
├── case001_image_preprocessed.mha
├── case001_labelmap.mha
├── case001_segmentation.seg.nrrd
├── inference_log.txt
└── markups/
├── case001_epidermis.mrk.json
├── case001_fascia_lata.mrk.json
├── case001_aponeurosis.mrk.json
├── case001_femur.mrk.json
└── case001_central_line.mrk.json
Returned Results
The pipeline returns a dictionary:
{ "case_id": str, "segmentation_path": str, "mrk_paths": dict, "df_distances": pd.DataFrame, "df_results": pd.DataFrame }
Model
The pretrained nnU-Net model is automatically downloaded from Zenodo on first use.
Expected strucutre:
Dataset001_ThighUS/
└── nnUNetTrainer__nnUNetPlans__2d/
├── dataset.json
├── plans.json
├── fold_0/
├── fold_1/
├── fold_2/
├── fold_3/
└── fold_4/
Requirements
· Python >= 3.10, < 3.11 · SimpleITK · OpenCV · NumPy / SciPy / Pandas · Matplotlib · nnU-Net v2
Citation
If you use this work, please cite:
Isensee et al., nnU-Net: a self-configuring method for deep learning-based biomedical image segmentation. Nature Methods (2021)
Mara Concepción Alavarez. (2026). Thigh Ultrasound Segmentation Model (nnU-Net). Zenodo. https://doi.org/10.5281/zenodo.19914473
License
This project uses the following licenses: · Code: MIT License (or the one you choose) · Model weights (Zenodo): CC-BY 4.0
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