Submit a Response to This Article
Jump to comment:
No eLetters have been published for this article.
In this issue
Jump to section
Related Articles
Cited By...
- Evaluation of predictive models of aneurysm focal growth and bleb development using machine learning techniques
- Youre so vein, you probably think this models about you: opportunities and challenges for computational fluid dynamics in cerebral venous disease
- Evaluation of predictive models of aneurysm focal growth and bleb development using machine learning techniques
- Quantitative and Qualitative Comparison of 4D-DSA with 3D-DSA Using Computational Fluid Dynamics Simulations in Cerebral Aneurysms
- Selective compromise of hypoplastic posterior communicating artery variants with aneurysms treatable by coil embolization: clinical and radiologic outcomes
- Aneurysmal Parent Artery-Specific Inflow Conditions for Complete and Incomplete Circle of Willis Configurations
- Porcine In Vivo Validation of a Virtual Contrast Model: The Influence of Contrast Agent Properties and Vessel Flow Rates
- Simultaneous imaging of blood flow dynamics and vascular remodelling during development
- Quantitative comparison of hemodynamic parameters from steady and transient CFD simulations in cerebral aneurysms with focus on the aneurysm ostium
- CFD: Computational Fluid Dynamics or Confounding Factor Dissemination? The Role of Hemodynamics in Intracranial Aneurysm Rupture Risk Assessment
- Effect of Bifurcation Angle Configuration and Ratio of Daughter Diameters on Hemodynamics of Bifurcation Aneurysms
- Analysis of Intra-Aneurysmal Flow for Cerebral Aneurysms with Cerebral Angiography
- High Shear Stress and Flow Velocity in Partially Occluded Aneurysms Prone to Recanalization
- Hemodynamics and Anatomy of Elastase-Induced Rabbit Aneurysm Models: Similarity to Human Cerebral Aneurysms?
- Association of Hemodynamic Characteristics and Cerebral Aneurysm Rupture
- Quantitative Characterization of the Hemodynamic Environment in Ruptured and Unruptured Brain Aneurysms
- In Vitro Study of Near-Wall Flow in a Cerebral Aneurysm Model with and without Coils
- Computational fluid dynamic simulation to assess flow characteristics of an in vitro aneurysm model
- Quantitative Hemodynamic Analysis of Brain Aneurysms at Different Locations
- An objective approach to digital removal of saccular aneurysms: technique and applications
- Three-dimensional imaging and computational modelling for estimation of wall stresses in arteries
- Magnitude and Role of Wall Shear Stress on Cerebral Aneurysm: Computational Fluid Dynamic Study of 20 Middle Cerebral Artery Aneurysms