name: 'multimodal-radpath-fusion-agent' description: 'AI-powered multimodal diagnostic fusion integrating radiology imaging (CT/MRI/PET), digital pathology (WSI), genomics, and clinical data for comprehensive cancer diagnosis and treatment planning.' measurable_outcome: Execute skill workflow successfully with valid output within 15 minutes. allowed-tools:

• read_file
• run_shell_command

Multimodal Radiology-Pathology Fusion Agent

The Multimodal Radpath Fusion Agent integrates diverse clinical data sources including radiology imaging (CT, MRI, PET), digital pathology whole slide images, genomic profiling, and electronic health records using state-of-the-art multimodal deep learning for comprehensive cancer diagnosis, treatment response prediction, and prognostic modeling.

When to Use This Skill

• When integrating radiology and pathology for unified tumor assessment.
• For treatment response prediction using multimodal imaging.
• To predict molecular features from imaging (imaging genomics).
• When building comprehensive prognostic models.
• For tumor board decision support with AI second opinion.

Core Capabilities

1. Radiology-Pathology Fusion: Integrate macro and microscopic views.

2. Imaging-Genomics Correlation: Predict molecular features from imaging.

3. Treatment Response Prediction: Multi-modal response modeling.

4. Survival Prediction: Comprehensive prognostic models.

5. Tumor Characterization: Integrate phenotype from all modalities.

6. Clinical Decision Support: AI-assisted tumor board recommendations.

Supported Modalities

Fusion Architectures

Workflow

1. Data Ingestion: Collect radiology, pathology, genomics, clinical.

2. Preprocessing: Standardize each modality.

3. Feature Extraction: Extract modality-specific features.

4. Alignment: Temporal and spatial alignment of data.

5. Fusion: Multi-modal deep learning integration.

6. Prediction: Diagnosis, response, survival prediction.

7. Output: Integrated report with explanations.

Example Usage

User: "Integrate this lung cancer patient's CT scan, biopsy pathology, and genomic profiling for comprehensive assessment and treatment recommendation."

Agent Action:

python3 Skills/Clinical/Multimodal_Radpath_Fusion_Agent/multimodal_fusion.py \
    --ct_dicom ct_chest/ \
    --pet_dicom pet_scan/ \
    --wsi_path biopsy.svs \
    --genomic_vcf tumor_wes.vcf \
    --rna_expression expression.tsv \
    --clinical_ehr patient_data.json \
    --task treatment_recommendation \
    --cancer_type nsclc \
    --output integrated_assessment/

Output Components

Clinical Applications

Imaging-Genomics Predictions

AI/ML Components

Feature Extraction:

• 3D ResNet for CT/MRI volumes
• Vision Transformers for WSI
• Foundation models (CONCH, UNI)

Fusion Methods:

• Cross-attention mechanisms
• Multimodal transformers
• Contrastive multimodal learning

Prediction Models:

• Multi-task learning
• Survival analysis (DeepSurv)
• Uncertainty quantification

Prerequisites

• Python 3.10+
• PyTorch, transformers
• SimpleITK, OpenSlide
• Foundation model weights
• GPU with 32GB+ VRAM (recommended)

Related Skills

• Radiomics_Pathomics_Fusion_Agent - Imaging-specific fusion
• Pathology_AI/CONCH_Agent - Pathology foundation model
• Pan_Cancer_MultiOmics_Agent - Genomic integration
• Virtual_Lab_Agent - AI research coordination

Integration with Clinical Workflow

Special Considerations

1. Data Alignment: Ensure temporal correspondence
2. Missing Modalities: Handle incomplete multimodal data
3. Privacy: HIPAA compliance for clinical integration
4. Validation: Multi-site validation essential
5. Explainability: Clinical trust requires interpretability

Explainability Methods

Quality Control

Author

AI Group - Biomedical AI Platform