scholarly article | Q13442814 |
P2093 | author name string | Henry H Woo | |
David J Fiorella | |||
Baruch B Lieber | |||
Chander Sadasivan | |||
P2860 | cites work | Risk Factors for Subarachnoid Hemorrhage: An Updated Systematic Review of Epidemiological Studies | Q22306374 |
Incidence of subarachnoid haemorrhage: a systematic review with emphasis on region, age, gender and time trends | Q24669798 | ||
Unruptured intracranial aneurysms in the Familial Intracranial Aneurysm and International Study of Unruptured Intracranial Aneurysms cohorts: differences in multiplicity and location | Q30414908 | ||
Influence of intracranial aneurysm-to-parent vessel size ratio on hemodynamics and implication for rupture: results from a virtual experimental study | Q30491579 | ||
Continuous measurement of cerebral blood flow velocity using transcranial Doppler reveals significant moment-to-moment variability of data in healthy volunteers and in patients with subarachnoid hemorrhage | Q30690947 | ||
Structural fragility and inflammatory response of ruptured cerebral aneurysms. A comparative study between ruptured and unruptured cerebral aneurysms | Q30726132 | ||
In vitro measurement of fluid-induced wall shear stress in unruptured cerebral aneurysms harboring blebs | Q30877960 | ||
Morphometry of medial gaps of human brain artery branches | Q33199397 | ||
Intra-aneurysmal hemodynamics during the growth of an unruptured aneurysm: in vitro study using longitudinal CT angiogram database | Q33281456 | ||
Velocity profile and wall shear stress of saccular aneurysms at the anterior communicating artery | Q33319803 | ||
Laboratory tests for strength paramaters of brain aneurysms. | Q33329149 | ||
Unruptured intracranial aneurysms and the assessment of rupture risk based on anatomical and morphological factors: sifting through the sands of data | Q33437856 | ||
Comparative velocity investigations in cerebral arteries and aneurysms: 3D phase-contrast MR angiography, laser Doppler velocimetry and computational fluid dynamics | Q33438564 | ||
Intracranial blood-flow velocity and pressure measurements using an intra-arterial dual-sensor guidewire. | Q33504490 | ||
Hemodynamics and bleb formation in intracranial aneurysms | Q33810369 | ||
Intracranial aneurysms and arterial hypertension: a review and hypothesis | Q34001540 | ||
Risk factors for subarachnoid hemorrhage | Q34193753 | ||
Current status of computational fluid dynamics for cerebral aneurysms: the clinician's perspective. | Q34204030 | ||
Genesis of cerebral aneurysms--an update | Q34324725 | ||
Size and location of ruptured and unruptured intracranial aneurysms measured by 3-dimensional rotational angiography. | Q34479709 | ||
Unruptured intracranial aneurysms: a review | Q34496384 | ||
A review of size and location of ruptured intracranial aneurysms | Q34532679 | ||
Cerebral aneurysms | Q34561983 | ||
The physics of endoluminal stenting in the treatment of cerebrovascular aneurysms | Q34695782 | ||
Characterizing heterogeneous properties of cerebral aneurysms with unknown stress-free geometry: a precursor to in vivo identification | Q34743020 | ||
Association of hemodynamic characteristics and cerebral aneurysm rupture | Q34762659 | ||
Quantitative characterization of the hemodynamic environment in ruptured and unruptured brain aneurysms | Q34911963 | ||
Molecular pathogenesis of subarachnoid haemorrhage | Q35150438 | ||
Statistical wall shear stress maps of ruptured and unruptured middle cerebral artery aneurysms | Q35771077 | ||
Light and scanning electron microscopic changes observed in experimental arterial forks of rabbits | Q36029332 | ||
Toward large-scale computational fluid-solid-growth models of intracranial aneurysms. | Q36033627 | ||
Genetics of intracranial aneurysms | Q36049286 | ||
Intracranial arterial aneurysm vasculopathies: targeting the outer vessel wall | Q36246410 | ||
Hemodynamic stress in lateral saccular aneurysms | Q36421844 | ||
Haemodynamic stress in lateral saccular aneurysms. An experimental study | Q36470221 | ||
Early changes of experimentally induced cerebral aneurysms in rats: scanning electron microscopic study | Q36479706 | ||
The genetics of intracranial aneurysms | Q36493275 | ||
Unruptured intracranial aneurysms: natural history and clinical management. Update on the international study of unruptured intracranial aneurysms | Q36578794 | ||
Alteration of hemodynamics in aneurysm models by stenting: influence of stent porosity | Q36860101 | ||
Size and location of ruptured intracranial aneurysms | Q37093808 | ||
What Is the Significance of a Large Number of Ruptured Aneurysms Smaller than 7 mm in Diameter? | Q37118207 | ||
Some observations on the pathogenesis and natural history of intracranial aneurysms | Q37152682 | ||
Subarachnoid haemorrhage and myths about saccular aneurysms | Q37270793 | ||
Complex hemodynamics at the apex of an arterial bifurcation induces vascular remodeling resembling cerebral aneurysm initiation. | Q37272479 | ||
An image-based modeling framework for patient-specific computational hemodynamics. | Q37323420 | ||
Hemodynamics of Cerebral Aneurysms | Q37361379 | ||
Computer-assisted extraction of intracranial aneurysms on 3D rotational angiograms for computational fluid dynamics modeling | Q37460830 | ||
Hemodynamic mechanisms underlying cerebral aneurysm pathogenesis | Q37932136 | ||
Inflammatory changes in the aneurysm wall: a review | Q37944671 | ||
Saccular intracranial aneurysm: pathology and mechanisms | Q37976321 | ||
Hemodynamics of cerebral aneurysms: computational analyses of aneurysm progress and treatment | Q37997771 | ||
Computational fluid dynamics in brain aneurysms | Q38264482 | ||
Etiology of intracranial berry aneurysms | Q38626835 | ||
Angles between A1 and A2 segments of the anterior cerebral artery visualized by three-dimensional computed tomographic angiography and association of anterior communicating artery aneurysms | Q39513319 | ||
Sensitivity to outflow boundary conditions and level of geometry description for a cerebral aneurysm. | Q39611199 | ||
Hemodynamic differences between unruptured and ruptured intracranial aneurysms during observation | Q39648410 | ||
Three-dimensional blood flow analysis in a wide-necked internal carotid artery-ophthalmic artery aneurysm | Q39659147 | ||
Identification of a dichotomy in morphological predictors of rupture status between sidewall- and bifurcation-type intracranial aneurysms | Q39664792 | ||
Bifurcation geometry and the presence of cerebral artery aneurysms | Q39689916 | ||
Computational replicas: anatomic reconstructions of cerebral vessels as volume numerical grids at three-dimensional angiography | Q39696850 | ||
Biomechanical wall properties of human intracranial aneurysms resected following surgical clipping (IRRAs Project). | Q39706907 | ||
Role of the bloodstream impacting force and the local pressure elevation in the rupture of cerebral aneurysms. | Q39725916 | ||
Hemodynamics in a cerebral artery before and after the formation of an aneurysm. | Q39754675 | ||
Intraoperative brain ultrasound: a new approach to study flow dynamics in intracranial aneurysms | Q39768310 | ||
Hemodynamics of cerebral aneurysm initiation: the role of wall shear stress and spatial wall shear stress gradient. | Q39784094 | ||
Morphological differences between ruptured and unruptured cases in middle cerebral artery aneurysms | Q39836527 | ||
PIV-measured versus CFD-predicted flow dynamics in anatomically realistic cerebral aneurysm models | Q39843103 | ||
Wall shear stress on ruptured and unruptured intracranial aneurysms at the internal carotid artery | Q39852100 | ||
Intra-aneurysmal flow patterns and wall shear stresses calculated with computational flow dynamics in an anterior communicating artery aneurysm depend on knowledge of patient-specific inflow rates | Q39879981 | ||
Temporal variations of wall shear stress parameters in intracranial aneurysms--importance of patient-specific inflow waveforms for CFD calculations | Q39928373 | ||
Hemodynamics model of fluid–solid interaction in internal carotid artery aneurysms | Q39948856 | ||
Aneurysm volume-to-ostium area ratio: a parameter useful for discriminating the rupture status of intracranial aneurysms | Q39961821 | ||
Epidemiology of the size distribution of intracranial bifurcation aneurysms: smaller size of distal aneurysms and increasing size of unruptured aneurysms with age. | Q40352630 | ||
Molecular anatomy of an intracranial aneurysm: coordinated expression of genes involved in wound healing and tissue remodeling | Q40715707 | ||
The use of Laplace's equation in aneurysm mechanics | Q40937252 | ||
The effect of aneurysm geometry on the intra-aneurysmal flow condition | Q41669048 | ||
Prevalence and risk of rupture of intracranial aneurysms: a systematic review | Q41691486 | ||
Flow dynamics in a lethal anterior communicating artery aneurysm | Q41705965 | ||
Aneurysm growth occurs at region of low wall shear stress: patient-specific correlation of hemodynamics and growth in a longitudinal study | Q41922149 | ||
Cerebral blood flow patterns at major vessel bifurcations and aneurysms in rats | Q42039079 | ||
Flow residence time and regions of intraluminal thrombus deposition in intracranial aneurysms. | Q42082469 | ||
Hemodynamic patterns of anterior communicating artery aneurysms: a possible association with rupture | Q42541445 | ||
A framework for geometric analysis of vascular structures: application to cerebral aneurysms | Q42621368 | ||
Editorial: on the persisting difficulty of making predictions, especially about the future | Q43927556 | ||
Basic flow structure in saccular aneurysms: a flow visualization study | Q44389499 | ||
The significance of unruptured intracranial saccular aneurysms | Q44586550 | ||
Alterations in cerebral vessels in experimental animals and their possible relationship to the development of aneurysms | Q44954326 | ||
Computational fluid dynamics in aneurysm research: critical reflections, future directions. | Q44960900 | ||
Size ratio correlates with intracranial aneurysm rupture status: a prospective study | Q45326442 | ||
Computational vascular fluid-structure interaction: methodology and application to cerebral aneurysms. | Q45982962 | ||
Anatomical and morphological factors correlating with rupture of intracranial aneurysms in patients referred for endovascular treatment. | Q46010509 | ||
Flow velocity studies in vein pouch model aneurysms | Q46253309 | ||
Feasibility of estimating regional mechanical properties of cerebral aneurysms in vivo | Q46595346 | ||
Effects of vibration on steady flow downstream of a stenosis | Q46670577 | ||
Configuration of intracranial arteries and development of aneurysms: a follow-up study | Q46733996 | ||
Computational hemodynamics in cerebral aneurysms: the effects of modeled versus measured boundary conditions. | Q46798717 | ||
Impact of aneurysmal geometry on intraaneurysmal flow: a computerized flow simulation study | Q46818572 | ||
Effects of size and shape (aspect ratio) on the hemodynamics of saccular aneurysms: a possible index for surgical treatment of intracranial aneurysms | Q47261096 | ||
The importance of parent artery geometry in intra-aneurysmal hemodynamics | Q47367464 | ||
Complex flow patterns in a real-size intracranial aneurysm phantom: phase contrast MRI compared with particle image velocimetry and computational fluid dynamics | Q47381821 | ||
Altered arterial homeostasis and cerebral aneurysms: a molecular epidemiology study | Q47444298 | ||
Inflow into saccular cerebral aneurysms at arterial bends | Q47627760 | ||
Image-based computational simulation of flow dynamics in a giant intracranial aneurysm. | Q47974206 | ||
Morphological and haemodynamic aspects of cerebral aneurysms | Q48359560 | ||
In vivo intraaneurysmal pressure measurements in experimental lateral wall aneurysms before and after onyx embolization | Q48667371 | ||
The role of circle of Willis anomalies in cerebral aneurysm rupture | Q48849043 | ||
Efficient pipeline for image-based patient-specific analysis of cerebral aneurysm hemodynamics: technique and sensitivity. | Q48933462 | ||
Quantified aneurysm shape and rupture risk | Q48987117 | ||
Intracranial arterial wall imaging using three-dimensional high isotropic resolution black blood MRI at 3.0 Tesla | Q49135626 | ||
Natural history of unruptured intracranial aneurysms: probability and risk factors for aneurysm rupture. | Q50785927 | ||
Intra-aneurysmal pressure measurements in experimental saccular aneurysms in dogs | Q50897420 | ||
A model for saccular cerebral aneurysm growth by collagen fibre remodelling. | Q51011465 | ||
Blood flow dynamics in saccular aneurysm models of the basilar artery. | Q51170395 | ||
Patient-specific computational modeling of cerebral aneurysms with multiple avenues of flow from 3D rotational angiography images. | Q51180324 | ||
The pathologic anatomy of ruptured cerebral aneurysms. | Q51343319 | ||
Quantification and visualization of flow in the Circle of Willis: time-resolved three-dimensional phase contrast MRI at 7 T compared with 3 T. | Q51364761 | ||
Automatic neck plane detection and 3D geometric characterization of aneurysmal sacs. | Q51375266 | ||
The application of computer simulation in the genesis and development of intracranial aneurysms. | Q51383568 | ||
Computation of hemodynamics in the circle of Willis. | Q51625891 | ||
Aneurysmal subarachnoid hemorrhage in a Mexican multicenter registry of cerebrovascular disease: the RENAMEVASC study. | Q51666385 | ||
Modelling evolution and the evolving mechanical environment of saccular cerebral aneurysms. | Q51695500 | ||
Three-dimensional geometrical characterization of cerebral aneurysms. | Q51704002 | ||
In-vivo quantification of wall motion in cerebral aneurysms from 2D cine phase contrast magnetic resonance images. | Q51780069 | ||
Effect of non-newtonian behavior on hemodynamics of cerebral aneurysms. | Q51796199 | ||
Outflow boundary conditions for arterial networks with multiple outlets. | Q51873388 | ||
Sensitivity of patient-specific numerical simulation of cerebal aneurysm hemodynamics to inflow boundary conditions. | Q51912716 | ||
Magnitude and role of wall shear stress on cerebral aneurysm: computational fluid dynamic study of 20 middle cerebral artery aneurysms. | Q51985449 | ||
Further evidence for the dynamic stability of intracranial saccular aneurysms. | Q52013441 | ||
Hemodynamics in rigid and distensible saccular aneurysms: a numerical study of pulsatile flow characteristics. | Q52397065 | ||
Intracranial aneurysms: flow analysis of their origin and progression | Q52430395 | ||
Matrix metalloproteinase-9 in cerebral aneurysms. | Q52527315 | ||
Pulsatile non-Newtonian blood flow simulation through a bifurcation with an aneurysm. | Q52545202 | ||
Calculation of pulsatile flow and particle paths in an aneurysm-model. | Q52694114 | ||
Intraaneurysmal flow: evaluation with Doppler guidewires. | Q53005439 | ||
Wall shear stress distribution inside growing cerebral aneurysm. | Q53198043 | ||
Science to practice: can an enzyme-sensitive MR contrast agent be used to image inflammation in aneurysms? | Q53336433 | ||
The promise of computational fluid dynamics as a tool for delineating therapeutic options in the treatment of aneurysms | Q53654875 | ||
A nonlinear dynamical mechanism for bruit generation by an intracranial saccular aneurysm. | Q53663041 | ||
Physical factors in the initiation, growth, and rupture of human intracranial saccular aneurysms. | Q54117374 | ||
Strength, elasticity and viscoelastic properties of cerebral aneurysms. | Q54366941 | ||
Stiffness and elastic behavior of human intracranial and extracranial arteries. | Q54560516 | ||
Turbulence in human intracranial saccular aneurysms. | Q54774135 | ||
Evidence in favor of the contribution of genes involved in the maintenance of the extracellular matrix of the arterial wall to the development of intracranial aneurysms | Q56968931 | ||
In vivo hemodynamic analysis of intracranial aneurysms obtained by magnetic resonance fluid dynamics (MRFD) based on time-resolved three-dimensional phase-contrast MRI | Q57728784 | ||
Genetics Of Intracranial Aneurysms | Q57925670 | ||
Outflow boundary conditions for 3D simulations of non-periodic blood flow and pressure fields in deformable arteries | Q58906809 | ||
3D Shape Analysis of Intracranial Aneurysms Using the Writhe Number as a Discriminant for Rupture | Q59393880 | ||
Direct numerical simulation of transitional flow in a patient-specific intracranial aneurysm | Q60162945 | ||
Remodeling of Saccular Cerebral Artery Aneurysm Wall Is Associated With Rupture | Q61856916 | ||
Clinicopathological study of cerebral aneurysms. Origin, rupture, repair, and growth | Q67296264 | ||
A model study of why some intracranial aneurysms thrombose but others rupture | Q67439693 | ||
Pressure distribution on the wall of experimental aneurysms | Q67440770 | ||
The anatomy of aneurysm-bearing circles of Willis | Q67962901 | ||
Aneurysm hemodynamics: an experimental study | Q68219417 | ||
Numerical blood flow analysis: arterial bifurcation with a saccular aneurysm | Q68388372 | ||
Pathophysiology of development and rupture of cerebral aneurysms | Q68894280 | ||
Stiffness of cerebral arteries--its role in the pathogenesis of cerebral aneurysms | Q70033416 | ||
Direct measurement of mean and pulsatile blood pressure at operation in human intracranial saccular aneurysms | Q70374570 | ||
The hemodynamic importance of the geometry of bifurcations in the circle of Willis (glass model studies) | Q70396287 | ||
Cerebral aneurysms and variations in the circle of Willis | Q70602808 | ||
Cigarette smoking and alcohol consumption as risk factors for aneurysmal subarachnoid hemorrhage | Q70703189 | ||
Computer modeling of intracranial saccular and lateral aneurysms for the study of their hemodynamics | Q70894479 | ||
Hemodynamic study of the anterior communicating artery | Q71739893 | ||
Intracranial aneurysms | Q71908767 | ||
In vitro study of haemodynamics in a giant saccular aneurysm model: influence of flow dynamics in the parent vessel and effects of coil embolisation | Q72263738 | ||
In vitro study of haemodynamics in a giant saccular aneurysm model: influence of flow dynamics in the parent vessel and effects of coil embolisation | Q72520246 | ||
Mechanism of Growth and Rupture in Cerebral Berry Aneurysms | Q72833941 | ||
Analysis of slipstream flow in two ruptured intracranial cerebral aneurysms | Q73137701 | ||
Gelatinase activity and the occurrence of cerebral aneurysms | Q73214293 | ||
Prehemorrhage risk factors for fatal intracranial aneurysm rupture | Q73582277 | ||
Is the aspect ratio a reliable index for predicting the rupture of a saccular aneurysm? | Q73676115 | ||
Intra-aneurysmal hemodynamics-jet action | Q73790895 | ||
Directional wall strength in saccular brain aneurysms from polarized light microscopy | Q74110974 | ||
ANEURYSMS AND ANATOMICAL VARIATION OF CEREBRAL ARTERIES | Q76632206 | ||
The influence of hemodynamic stress factors on intracranial aneurysm formation | Q77152975 | ||
Sequential increases and decreases in blood flow stimulates progressive intimal thickening | Q77565080 | ||
Saccular aneurysm formation in curved and bifurcating arteries | Q78206659 | ||
Blood pressure, fatigue, and the pathogenesis of aneurysmal subarachnoid hemorrhage | Q79404228 | ||
Is aspect ratio a reliable predictor of intracranial aneurysm rupture? | Q80119610 | ||
On the effect of parent-aneurysm angle on flow patterns in basilar tip aneurysms: towards a surrogate geometric marker of intra-aneurismal hemodynamics | Q80196619 | ||
Computational fluid dynamics modeling of intracranial aneurysms: effects of parent artery segmentation on intra-aneurysmal hemodynamics | Q80258886 | ||
Risk of aneurysmal rupture: the importance of neck orifice positioning-assessment using computational flow simulation | Q81319652 | ||
Variations in the configuration of the circle of Willis | Q81347821 | ||
A proposed parent vessel geometry-based categorization of saccular intracranial aneurysms: computational flow dynamics analysis of the risk factors for lesion rupture | Q81432775 | ||
Characterization of cerebral aneurysms for assessing risk of rupture by using patient-specific computational hemodynamics models | Q81476989 | ||
Characterization of volumetric flow rate waveforms in the normal internal carotid and vertebral arteries | Q81734880 | ||
Dissecting the complexities of aneurysm hemodynamics | Q82694035 | ||
The perianeurysmal environment: influence on saccular aneurysm shape and rupture | Q82903697 | ||
Can temporal fluctuation in spatial wall shear stress gradient initiate a cerebral aneurysm? A proposed novel hemodynamic index, the gradient oscillatory number (GON) | Q83301046 | ||
Point: CFD--computational fluid dynamics or confounding factor dissemination | Q83302951 | ||
Counterpoint: realizing the clinical utility of computational fluid dynamics--closing the gap | Q83336357 | ||
Configuration of the circle of Willis, direction of flow, and shape of the aneurysm as risk factors for rupture of intracranial aneurysms | Q83364329 | ||
Detection of pulsation in ruptured and unruptured cerebral aneurysms by electrocardiographically gated 3-dimensional computed tomographic angiography with a 320-row area detector computed tomography and evaluation of its clinical usefulness | Q84218809 | ||
MR derived volumetric flow rate waveforms at locations within the common carotid, internal carotid, and basilar arteries | Q84563550 | ||
Newtonian viscosity model could overestimate wall shear stress in intracranial aneurysm domes and underestimate rupture risk | Q85078257 | ||
P433 | issue | 7 | |
P304 | page(s) | 1347-1365 | |
P577 | publication date | 2013-04-03 | |
P1433 | published in | Annals of Biomedical Engineering | Q15760783 |
P1476 | title | Physical factors effecting cerebral aneurysm pathophysiology | |
P478 | volume | 41 |
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