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NVIDIA’s VISTA-2D Model Revolutionizes Cell Imaging and Spatial Omics



Joerg Hiller
Jul 25, 2024 02:15

NVIDIA introduces VISTA-2D, a model enhancing cell segmentation and morphology clustering in spatial omics, offering a pivotal advancement for biological research.



NVIDIA's VISTA-2D Model Revolutionizes Cell Imaging and Spatial Omics

NVIDIA has unveiled VISTA-2D, a foundational model designed to significantly improve cell segmentation in cell imaging and spatial omics workflows, according to NVIDIA Technical Blog. This model aims to enhance the accuracy of downstream tasks by leveraging advanced image embedding techniques.

Feature Extraction and Clustering

The VISTA-2D model employs an image encoder to generate embeddings that can be transformed into segmentation masks. These embeddings provide essential information about cell morphologies, allowing for precise cell segmentation. NVIDIA’s blog post explains that these embeddings can be clustered to group cells with similar morphologies automatically.

To demonstrate the model’s capabilities, NVIDIA has provided a detailed Jupyter notebook that walks users through the process of segmenting cells and extracting their spatial features using VISTA-2D. The notebook also shows how to cluster these features using RAPIDS, creating an automated pipeline for classifying cell types.

Prerequisites and Setup

Users interested in exploring the VISTA-2D model need a basic understanding of Python, Jupyter, and Docker. The Docker container required for this tutorial can be initiated with the following command:

docker run --rm -it \
    -v /path/to/this/repo/:/workspace \
    -p 8888:8888 \
    --gpus all \
    nvcr.io/nvidia/pytorch:24.03-py3 \
    /bin/bash

Additional Python packages needed for the tutorial can be installed using:

pip install -r requirements.txt

Cell Segmentation with VISTA-2D

The initial step involves loading a VISTA-2D model checkpoint and using it to segment cells in an image. The segmentation process generates a feature vector for each cell, which contains all necessary information for cell morphology analysis. These vectors are then used in clustering algorithms to group cells with similar features.

Segmenting Cells

The segmentation function processes the cell image through VISTA-2D, resulting in segmentation masks that label each cell individually. This allows for accurate feature extraction for each cell.

img_path="example_livecell_image.tif"
patch, segmentation, pred_mask = segment_cells(img_path, model_ckpt)

Plotting Segmentation

The segmented images can be visually verified using the plot_segmentation function. This function displays the original image, the segmentation result, and individual masks for each cell.

plot_segmentation(patch, segmentation, pred_mask)
original-cell-image-625x487.png
a) Original cell image
segmentations-625x480.png
b) Segmentations
individual-masks-625x485.png
c) Individual masks
Figure 2. VISTA-2D segmentation results

Clustering Features with RAPIDS

Once feature vectors are extracted, they are clustered using RAPIDS, a GPU-accelerated machine learning library. The TruncatedSVD algorithm reduces the dimensionality of the feature vectors, making it easier to visualize clusters in 3D space.

dim_red_model = TruncatedSVD(n_components=3)
X = dim_red_model.fit_transform(cell_features)

The DBSCAN algorithm is then used to cluster the reduced feature vectors. This method assigns cluster labels to each cell, which can be visualized using Plotly for an interactive 3D plot.

model = DBSCAN(eps=0.003, min_samples=2)
labels = model.fit_predict(X)
interactive-3d-diagram.png
Figure 3. Interactive 3D diagram that results from the plot of the clustered feature vectors

Conclusion

NVIDIA’s VISTA-2D model offers a significant advancement in cell imaging and spatial omics by providing accurate cell segmentation and feature extraction. Coupled with RAPIDS for clustering, this model enables efficient classification of cell types, paving the way for more detailed and automated biological research.

Image source: Shutterstock







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