Abstract
With modern imaging modalities of the brain a significant number of unruptured aneurysms are detected. However, not every aneurysm is prone to rupture. Because treatment morbidity is about 10% it is crucial to identify unstable aneurysms for which treatment should be discussed. Recently, new imaging tools allow analysis of flow dynamics and wall stability have become available. It seems that they might provide additional data for better risk profiling. In this study we present a new imaging tool for analysis of flow dynamics, which calculates fluid velocity in an aneurysm (Phillips Electronics, N.V.). It may identify regions with high flow and calculate flow reduction after stenting of aneurysms. Contrast is injected with a stable injection speed of 2 mL/sec for 3 sec. Two clinical cases are illustrated. Velocity in aneurysms and areas of instability can be identified and calculated during angiography in real-time. After stenting and flow diverter deployment flow reduction in the internal carotid aneurysm was reduced by 60% and there was a reduction of about 65% in the posterior cerebral artery in the second case we are reporting. The dynamic flow software calculates the flow profile in the aneurysm immediately after contrast injection. It is a real-time, patient specific tool taking into account systole, diastole and flexibility of the vasculature. These factors are an improvement as compared to current models of computational flow dynamics. We think it is a highly efficient, user friendly tool. Further clinical studies are on their way.
Highlights
Satile laminar flow, newtonian fluid dynamics and rigid vessel walls with nonslip conditions.[4,5] Analogous methods are used to determine the presence of high-pressure areas in unruptured aneurysm in order to estimate the risk of rupture.[5]
In l this study we present a new imaging tool for ia analysis of flow dynamics, which calculates fluid velocity in an aneurysm (Phillips c Electronics, N.V.)
The flow tool analysis which was developed in cooperation with Phillips (Eindhoven, NL) is promising because of its applicability, which is easy to use as well as fast without any time delays. Even if it cannot generate absolute numbers of flow velocity or wall shear stress it can estimate the relative speed and the stress, which is caused on the aneurysm walls
Summary
This study is introducing a real-time method of calculating intra-aneurysmal flow during digital subtraction angiography. The vector analysis is calculated by a socalled flow tool software developed by Phillips Electronics N.V. Contrast medium is given 7 cm proximal to the aneurysm with a flow rate of 2 mL/sec for 3 sec (Figure 1). The rate of flow reduction after stenting data set containing information concerning is calculated in percentages. The image data set is compared with a fusiforme aneuryms of the internal carotid flow and wall shear stress determine series of X-ray projection images, which are artery that were treated by flow diverter aneurysm stability and its risk of rupture. formed successively in time and contain the stents
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
