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Building Digital Twins for Individualized Health Care
In this episode of Pratt School of Engineering’s Dean’s Minutes, Dean Lynch and Professor Amanda Randles talk about how digital twins — advanced, personalized computational models of a patient’s body — could help save lives.
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How a Protein Complex Helps Organize and Compact DNA
Researchers at Duke are focused on understanding how 2-meter-long DNA is organized within a micron-size cell nucleus.
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Vascular Blood Flow Simulations Accelerated on Intel® GPUs
Researchers in the group led by Professor Amanda Randles developed HARVEY—a massively parallel CFD code capable of resolving patient-derived blood flow at cellular resolutions in complex vascular geometries.
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Seeing cancer’s spread through a computational window
Computational model allows researchers to simulate cellular-scale interactions across unprecedented distances in the human vasculature.
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Modelling a single cancer cell in a sea of blood
Sayan Roychowdhury presented at the SC23 conference on the research paper “Enhancing Adaptive Physics Refinement Simulations through the Addition of Realistic Red Blood Cell Counts.”
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Readying Aurora exascale supercomputer to assist in the battle against cancer
As part of an Aurora Early Science Program project, Amanda Randles and her research team will use advanced modeling to identify likely sites for metastasis.
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Research team pairs 3D bioprinting and computer modeling to examine cancer spread in blood vessels
Researchers at Lawrence Livermore National Laboratory and Duke University combined 3D bioprinting and computational flow models to analyze the physics behind circulating tumor cell behavior and the cells’ attachment to the vascular endothelium, the layer of cells that line the interior surface of blood vessels.
