1. Role of Hemodynamic Forces in Unruptured Intracranial Aneurysms: An Overview of a Complex Scenario
- Author
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G. Longo, Sergio Racchiusa, Enricomaria Mormina, Concetta Alafaci, Giovanni Grasso, Giada Garufi, Francesca Granata, Francesco M. Salpietro, Marcello Longo, Longo, M., Granata, F., Racchiusa, S., Mormina, E., Grasso, G., Longo, G.M., Garufi, G., Salpietro, F.M., and Alafaci, C.
- Subjects
medicine.medical_specialty ,030218 nuclear medicine & medical imaging ,Wall shear stress ,03 medical and health sciences ,0302 clinical medicine ,Aneurysm ,Computational fluid dynamic ,medicine ,Humans ,Rupture risk ,Hemodynamic ,Intensive care medicine ,Cerebral aneurysm ,Hemodynamic forces ,Modalities ,business.industry ,Hemodynamics ,Intracranial Aneurysm ,Hemodynamics, Intracranial aneurysms, Cerebral aneurysm, Wall shear stress,Ccomputational fluid dynamics ,Flow pattern ,medicine.disease ,Surgery ,Cerebral Angiography ,Natural history ,Cerebrovascular Circulation ,Treatment strategy ,Neurology (clinical) ,business ,030217 neurology & neurosurgery - Abstract
Background An understanding of the natural history of unruptured intracranial aneurysms (IAs) has always played a critical role in presurgical or endovascular planning, to avoid possibly fatal events. Size, shape, morphology, and location are known risk factors for rupture of an aneurysm, but morphologic parameters alone may not be sufficient to perform proper rupture risk stratification. Methods We performed a systematic PubMed search and focused on hemodynamics forces that may influence aneurysmal initiation, growth, and rupture. Results We included 223 studies describing several hemodynamic parameters related to aneurysm natural history. In these studies, different modalities of aneurysm model creation have been used to evaluate flow and to comprehensively analyze the evolution of IAs. Controversy exists about the correlation between these parameters and initiation, growth, rupture risk, or stabilization of the aneurysmal sac. Recent findings have also shown the importance of flow patterns in this process and the relationship between unruptured IA geometry and hemodynamic parameters. Conclusions The role of hemodynamic forces in evaluation of the natural history of unruptured IAs presents is inherently complex and is still not completely understood. In this complex scenario, although several attempts have been described in the literature, a proper risk rupture stratification and treatment strategy selection based on hemodynamic forces has not yet been created. Further efforts should be made to accomplish this important goal. © 2017 Elsevier Inc.
- Published
- 2017