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I/O routines for medical imaging data

Project description

Voxel

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Documentation | Installation | Basic Usage

This is a fork of the original pyvoxel from Arjun Desai. The original repository can be found here. This repository is maintained by ORMIR.

Voxel provides fast Pythonic data structures and tools for wrangling with medical images.

Installation

Voxel requires Python 3.7+. The core module depends on numpy, nibabel, pydicom, requests, and tqdm.

To install Voxel, run:

pip install ormir-pyvoxel

Features

Simplified, Efficient I/O

Voxel provides efficient readers for DICOM and NIfTI formats built on nibabel and pydicom. Multi-slice DICOM data can be loaded in parallel with multiple workers and structured into the appropriate 3D volume(s). For example, multi-echo and dynamic contrast-enhanced (DCE) MRI scans have multiple volumes acquired at different echo times and trigger times, respectively. These can be loaded into multiple volumes with ease:

import voxel as vx

xray = vx.load("path/to/xray.dcm")
ct_scan = vx.load("path/to/ct/folder/")

multi_echo_scan = vx.load("/path/to/multi-echo/scan", group_by="EchoNumbers")
dce_scan = vx.load("/path/to/dce/scan", group_by="TriggerTime")

Data-Embedded Medical Images

Voxel's MedicalVolume data structure supports array-like operations (arithmetic, slicing, etc.) on medical images while preserving spatial attributes and accompanying metadata. This structure supports NumPy interoperability intelligent reformatting, fast low-level computations, and native GPU support. For example, given MedicalVolumes mv_a and mv_b we can do the following:

# Reformat image into Superior->Inferior, Anterior->Posterior, Left->Right directions.
mv_a = mv_a.reformat(("SI", "AP", "LR"))

# Get and set metadata
study_description = mv_a.get_metadata("StudyDescription")
mv_a.set_metadata("StudyDescription", "A sample study")

# Perform NumPy operations like you would on image data.
rss = np.sqrt(mv_a**2 + mv_b**2)

# Move to GPU 0 for CuPy operations
mv_gpu = mv_a.to(vx.Device(0))

# Take slices. Metadata will be sliced appropriately.
mv_subvolume = mv_a[10:20, 10:20, 4:6]

Easily Prepare Data for AI Pipelines

Voxel enables you to preprocess DICOM images for deep learning in a few lines of code:

# Load a scan, and prepare it for AI/visualization
mv = (
  vx.load("/dicoms")
  .apply_rescale()
  .apply_window()
  .to_grayscale()
)

# Zero-copy to PyTorch
arr = mv.to_torch()

Connect with PACS

Voxel provides easy access to data stored in a PACS environment through DICOMweb. This makes loading data from a remote server just as easy as using the local filesystem.

# Download an MRI from a local Orthanc instance
mv = vx.load("http://localhost:8042/dicom-web/studies/x/series/y", params={"Modality": "MR"})

# Re-use the session for multiple requests
with vx.HttpReader(verbose=True) as hr:
  mv_a = hr.load("http://localhost:8042/dicom-web/studies/v/series/w")
  mv_b = hr.load("http://localhost:8042/dicom-web/studies/x/series/y")

Contribute

If you would like to contribute to Voxel, we recommend you clone the repository and install Voxel with pip in editable mode.

git clone git@github.com:pyvoxel/pyvoxel.git
cd pyvoxel
pip install -e '.[dev,docs]'
make dev

To run tests, build documentation and contribute, run

make autoformat test build-docs

Citation

Voxel is a refactored version of the DOSMA package that focuses on medical image data structures and I/O. If you use Voxel in your research, please cite the following work:

@inproceedings{desai2019dosma,
  title={DOSMA: A deep-learning, open-source framework for musculoskeletal MRI analysis},
  author={Desai, Arjun D and Barbieri, Marco and Mazzoli, Valentina and Rubin, Elka and Black, Marianne S and Watkins, Lauren E and Gold, Garry E and Hargreaves, Brian A and Chaudhari, Akshay S},
  booktitle={Proc 27th Annual Meeting ISMRM, Montreal},
  pages={1135},
  year={2019}
}

In addition to Voxel, please also consider citing the work that introduced the method used for analysis.

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