Variability of intra-aneurysmal hemodynamics caused by stent-induced vessel deformation

Abstract: Clinical observation revealed deformations of the local vasculature due to implanted devices related to treatment of intracranial aneurysms. Pre-and postinterventional image data is reviewed and segmented. Based on Computational Fluid Dynamics (CFD) the effect of the vessel deformation on the intra-aneurysmal hemodynamics is investigated. The simulations incorporate the vessel trees with aneurysm excluding the device itself in order to consider the isolated effect of geometric modifications. As a result, the a… Show more

“…It follows naturally that then it is also crucial for making accurate mechanical load predictions. The short‐ and long‐term effects of this load on the parental vessel have not been fully explored yet, but have some implications include vessel straightening and radial dilatation 38,39 . To understand these in more detail in the future, accurate wall load prediction is necessary.…”

“…The short-and long-term effects of this load on the parental vessel have not been fully explored yet, but have some implications include vessel straightening and radial dilatation. 38,39 To understand these in more detail in the future, accurate wall load prediction is necessary. The presented model can report the arising contact forces including the effects of push-pull, which can also increase the local radial force of the FD.…”

A novel virtual flow diverter implantation method with realistic deployment mechanics and validated force response

“…It follows naturally that then it is also crucial for making accurate mechanical load predictions. The short‐ and long‐term effects of this load on the parental vessel have not been fully explored yet, but have some implications include vessel straightening and radial dilatation 38,39 . To understand these in more detail in the future, accurate wall load prediction is necessary.…”

“…The short-and long-term effects of this load on the parental vessel have not been fully explored yet, but have some implications include vessel straightening and radial dilatation. 38,39 To understand these in more detail in the future, accurate wall load prediction is necessary. The presented model can report the arising contact forces including the effects of push-pull, which can also increase the local radial force of the FD.…”

A novel virtual flow diverter implantation method with realistic deployment mechanics and validated force response

Impact of Gradual Vascular Deformations on the Intra-aneurysmal Hemodynamics

Stent-induced vessel deformation after intracranial aneurysm treatment – A hemodynamic pilot study