Advanced Technology Behind Precision Care
NO CLOT ZONE integrates three pioneering technologies to deliver unparalleled stroke risk assessment.
Magnetic Resonance Angiography (MRA)
MRA provides high-resolution 3D imaging of blood vessels without ionizing radiation. Our platform supports standard medical formats (.nii, .dcm) for seamless integration into clinical workflows.
Automated Segmentation
Rapid vessel extraction and boundary detection
3D Reconstruction
Patient-specific vascular tree generation
Real-time Processing
Results delivered in seconds, not hours
MRA Volume Rendering
Hemodynamic Simulation
Surrogate CFD Modeling
Computational Fluid Dynamics (CFD) models blood flow physics within reconstructed vessels. Our surrogate model provides fast, accurate hemodynamic estimates without expensive full simulations.
Pressure Estimation
Identifies high-pressure regions correlating with rupture risk
Velocity Mapping
Reveals flow acceleration, recirculation, and disturbance zones
Wall Shear Stress
Indicates thrombus formation and aneurysm growth potential
Deep Learning Risk Assessment
Our deep learning model integrates morphological features from MRA with hemodynamic biomarkers from CFD to identify high-risk regions with clinical precision.
Multi-modal Feature Analysis
Combines vessel geometry, flow patterns, and pressure dynamics for comprehensive risk profiling
High-Risk Region Detection
Automatically highlights aneurysms, stenotic zones, and flow-disturbed environments
Clinical Validation
Model trained on extensive clinical datasets for reliable, interpretable predictions
AI-Powered Risk Identification
Integrated Clinical Workflow
MRA Upload
Upload volumetric scans in .nii or .dcm format with automatic metadata extraction
Vessel Segmentation
Automated extraction of vascular tree from MRA imagery
3D Reconstruction
Generation of patient-specific vascular geometry
CFD Surrogate Inference
Fast hemodynamic estimation producing velocity, pressure, and WSS maps
Deep Learning Analysis
AI identification of high-risk regions from morphology + hemodynamics
Clinical Report
Comprehensive visualization and insights for clinical decision-making