MS176A Endovascular devices for intracranial aneurysms: modeling, experiments, and flow analysis I
Main Organizer:
Dr.
Ratnadeep Pramanik
(
Institute for Mathematics and Computer-Based Simulation, University of the Bundeswehr Munich
, Germany
)
Chaired by:
Dr. Ratnadeep Pramanik (Institute for Mathematics and Computer-Based Simulation, University of the Bundeswehr Munich , Germany)
Dr. Ratnadeep Pramanik (Institute for Mathematics and Computer-Based Simulation, University of the Bundeswehr Munich , Germany)
Scheduled presentations:
-
Numerical Investigation of Aneurysm Initiation and Hemodynamics Associated with Vascular Anastomosis Direction in a Rat Model
-
Investigating the effect of structural complexity on the hemodynamics in 3D printed patient specifc intracranial aneurysm models.
-
Location-Dependent Role of CFD-Based Hemodynamic Factors in Intracranial Aneurysm Rupture Prediction
-
Quantitative Evaluation of Flow Diversion in Intracranial Aneurysms Using DSA-Derived Intensity Metrics
-
Enabling In Silico Trials: A High-Fidelity Simulation Framework for Predicting Device Deployment and Hemodynamic Outcomes in Intracranial Aneurysms
-
3D-Printing and In Vitro Flow Experiments for Assessment of Aneurysm Treatment with Contour Neurovascular System
