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Center for Computational and Digital Health Innovation

Research

Genomic simulation

Three Dimensional Genome Organization Regulated by Active Loop Extrusion

Read More Three Dimensional Genome Organization Regulated by Active Loop ExtrusionContinue

Example of Harvis visualization

Harvis: Extended Reality Interface for Immersive Vascular Visualization

Read More Harvis: Extended Reality Interface for Immersive Vascular VisualizationContinue

Simulation of the mechanical response (stress) in the arterial wall; red regions indicate higher variability

High-Fidelity Mechanistic-Probabilistic Models of Arterial Tissues

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Non-Invasive Diagnostics for Coronary Artery Disease

Non-Invasive Diagnostics for Coronary Artery Disease

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Non-Invasive Techniques to Evaluate Previously Treated Brain Aneurysms

Non-Invasive Techniques to Evaluate Previously Treated Brain Aneurysms

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Infographic describing the research

Wearable Infection Detection (WID) [formerly known as CovIdentify]

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Graph showing tracking from wearable devices.

Diabetes Watch: Tuning Into Your Body’s Sweet Signals

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Workflow for Programmable Proteome Editing

Generative Language Models to Design Protein Therapeutics

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Diagram of a coronary artery bifurcation with guidewire placement illustration

Digital Twins for Bifurcation Lesion Treatment

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Use of the Adaptive Physics Refinement (APR) model within an upper body vasculature enables up to 4 orders of magnitude increase in total simulated fluid volume accessible to cellular resolution.

Adaptive Physics Refinement

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