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Vision-language encoder for chest CT scans and reports.

Project description


license: mit language:

  • en library_name: colipri pipeline_tag: zero-shot-image-classification

COLIPRI

COLIPRI is a 3D vision–language transformer model trained to encode chest CT scans and reports.

Model description

COLIPRI was trained using tens of thousands of chest CT scans and reports, without any annotations, using multiple objectives to learn strong joint representations of 3D images and text. The procedure is described in detail in our manuscript, Comprehensive language-image pre-training for 3D medical image understanding (Wald et al. 2026).

The weights shared here correspond to our best-performing model, COLIPRI-CRM.

  • Developed by: Microsoft Health Futures
  • Model type: 3D vision–language encoder
  • License: MIT

Uses

COLIPRI is shared for research purposes only. It is not meant to be used for clinical practice.

The encoders be plugged to other models, or used independently or jointly for many downstream tasks, such as:

  • Image classification with text prompts
  • Image clustering
  • Text clustering
  • Text-to-image retrieval
  • Image-to-image retrieval
  • Image-to-text retrieval
  • Text-to-text retrieval
  • Image classification with a classifier
  • Text classification with a classifier
  • Image segmentation with a decoder
  • Report generation with a language decoder

Fine-tuning COLIPRI is typically not necessary to obtain good performance in downstream tasks.

Getting started

Installation

pip install colipri

Usage examples

Below we share some usage snippets to get started with COLIPRI. A more complete Jupyter notebook is also available.

First, let's get a 3D chest CT we can use for demonstration. The plotted slices intersect a lung nodule near the heart.

>>> from colipri import load_sample_ct
>>> image = load_sample_ct()
>>> image
ScalarImage(shape: (1, 512, 512, 139); spacing: (0.76, 0.76, 2.50); orientation: LPS+; dtype: torch.IntTensor; memory: 139.0 MiB)

The image looks like this:

Input CT

Now, let's instantiate the model and processor.

>>> from colipri import get_model
>>> from colipri import get_processor
>>> model = get_model().cuda()
>>> processor = get_processor()

Zero-shot classification

>>> from colipri import ZeroShotImageClassificationPipeline
>>> pipeline = ZeroShotImageClassificationPipeline(model, processor)
>>> pipeline(image, ["No lung nodules", "Lung nodules"])
[
    {'score': 0.0007, 'label': 'No lung nodules'},
    {'score': 0.9993, 'label': 'Lung nodules'}
]

Feature extraction

>>> import torch
>>> preprocessed_images = processor.process_images(image)
>>> preprocessed_images[0]
ScalarImage(shape: (1, 192, 192, 192); spacing: (2.00, 2.00, 2.00); orientation: SAR+; dtype: torch.FloatTensor; memory: 27.0 MiB)
>>> images_batch = processor.to_images_batch(preprocessed_images)
images_batch.shape
torch.Size([1, 1, 192, 192, 192])
>>> with torch.no_grad():
...     patch_embeddings = model.encode_image(images_batch)
>>> patch_embeddings.shape
torch.Size([1, 768, 24, 24, 24])
>>> with torch.no_grad():
...     pooled_embeddings = model.encode_image(images_batch, pool=True, project=True)
>>> pooled_embeddings.shape
torch.Size([1, 768])

Biases, risks, and limitations

COLIPRI was trained with data from Turkey and the USA only, therefore it might be biased towards population in the training data. Underlying biases of the training datasets may not be well characterized.

Environmental impact

  • Hardware type: NVIDIA A100 GPUs
  • Hours used: 72 hours × 4 GPUs = 288 GPU-hours
  • Cloud provider: Azure
  • Compute region: West US 2
  • Carbon emitted: 21.6 kg CO₂ eq.

Compute infrastructure

COLIPRI was trained on Azure Machine Learning.

Hardware

Stage Node type Num. nodes GPU type GPUs per node
Pre-training Standard_NC96ads_A100_v4 1 NVIDIA A100 (80 GB) 4
Evaluation Standard_NC24ads_A100_v4 1 NVIDIA A100 (80 GB) 1

Software

The main software libraries used in this work were nnSSL for training, TorchIO for preprocessing and augmentation, nifti-zarr-py for data loading, and nnU-Net for segmentation evaluation.

Citation

BibTeX

@misc{
    wald2026_colipri,
    title={Comprehensive language-image pre-training for 3D medical image understanding},
    author={Tassilo Wald and Ibrahim Ethem Hamamci and Yuan Gao and Sam Bond-Taylor and Harshita Sharma and Maximilian Ilse and Cynthia Lo and Olesya Melnichenko and Anton Schwaighofer and Noel C. F. Codella and Maria Teodora Wetscherek and Klaus H. Maier-Hein and Panagiotis Korfiatis and Valentina Salvatelli and Javier Alvarez-Valle and P{\'e}rez-Garc{\'i}a},
    year={2026},
    eprint={2510.15042},
    archivePrefix={arXiv},
    primaryClass={cs.CV},
    url={https://arxiv.org/abs/2510.15042},
}

APA

Wald, T., Hamamci, I. E., Gao, Y., Bond-Taylor, S., Sharma, H., Ilse, M., Lo, C., Melnichenko, O., Schwaighofer, A., Codella, N. C. F., Wetscherek, M. T., Maier-Hein, K. H., Korfiatis, P., Salvatelli, V., Alvarez-Valle, J., & Pérez-García, F. (2026). Comprehensive language-image pre-training for 3D medical image understanding. arXiv. https://doi.org/10.48550/ARXIV.2510.15042

Model card contact

Fernando Pérez-García (fperezgarcia@microsoft.com).

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