Literature DB >> 18460763

Flow-area relationship in internal carotid and vertebral arteries.

J R Cebral1, M A Castro, C M Putman, N Alperin.   

Abstract

Subject-specific computational and experimental models of hemodynamics in cerebral aneurysms require the specification of physiologic flow conditions. Because patient-specific flow data are not always available, researchers have used 'typical' or population average flow rates and waveforms. However, in order to be able to compare the magnitude of hemodynamic variables between different aneurysms or groups of aneurysms (e.g. ruptured versus unruptured) it is necessary to scale the flow rates to the area of the inflow artery. In this work, a relationship between flow rates and vessel areas is derived from phase-contrast magnetic resonance measurements in the internal carotid arteries and vertebral arteries of normal subjects.

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Year:  2008        PMID: 18460763      PMCID: PMC2692290          DOI: 10.1088/0967-3334/29/5/005

Source DB:  PubMed          Journal:  Physiol Meas        ISSN: 0967-3334            Impact factor:   2.833


  44 in total

1.  PUBS: pulsatility-based segmentation of lumens conducting non-steady flow.

Authors:  Noam Alperin; Sang Hoon Lee
Journal:  Magn Reson Med       Date:  2003-05       Impact factor: 4.668

2.  Carotid flow rates and flow division at the bifurcation in healthy volunteers.

Authors:  Ian Marshall; Panorea Papathanasopoulou; Karolina Wartolowska
Journal:  Physiol Meas       Date:  2004-06       Impact factor: 2.833

3.  Three-dimensional phase contrast velocity mapping acquisition improves wall shear stress estimation in vivo.

Authors:  Sheng Ping Wu; Steffen Ringgaard; Erik Morre Pedersen
Journal:  Magn Reson Imaging       Date:  2004-04       Impact factor: 2.546

4.  Roles of fluid shear stress in physiological regulation of vascular structure and function.

Authors:  A Kamiya; J Ando; M Shibata; H Masuda
Journal:  Biorheology       Date:  1988       Impact factor: 1.875

5.  Blood velocity and volumetric flow rate in human retinal vessels.

Authors:  C E Riva; J E Grunwald; S H Sinclair; B L Petrig
Journal:  Invest Ophthalmol Vis Sci       Date:  1985-08       Impact factor: 4.799

6.  Magnitude and role of wall shear stress on cerebral aneurysm: computational fluid dynamic study of 20 middle cerebral artery aneurysms.

Authors:  Masaaki Shojima; Marie Oshima; Kiyoshi Takagi; Ryo Torii; Motoharu Hayakawa; Kazuhiro Katada; Akio Morita; Takaaki Kirino
Journal:  Stroke       Date:  2004-11       Impact factor: 7.914

7.  Computational approach to quantifying hemodynamic forces in giant cerebral aneurysms.

Authors:  Liang-Der Jou; Christopher M Quick; William L Young; Michael T Lawton; Randall Higashida; Alastair Martin; David Saloner
Journal:  AJNR Am J Neuroradiol       Date:  2003-10       Impact factor: 3.825

8.  In vitro measurement of fluid-induced wall shear stress in unruptured cerebral aneurysms harboring blebs.

Authors:  Satoshi Tateshima; Yuichi Murayama; J Pablo Villablanca; Taku Morino; Kiyoe Nomura; Kazuo Tanishita; Fernando Viñuela
Journal:  Stroke       Date:  2003-01       Impact factor: 7.914

9.  Cerebral aneurysms and variations in the circle of Willis.

Authors:  K N Kayembe; M Sasahara; F Hazama
Journal:  Stroke       Date:  1984 Sep-Oct       Impact factor: 7.914

10.  On connecting large vessels to small. The meaning of Murray's law.

Authors:  T F Sherman
Journal:  J Gen Physiol       Date:  1981-10       Impact factor: 4.086
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  51 in total

1.  Statistical wall shear stress maps of ruptured and unruptured middle cerebral artery aneurysms.

Authors:  L Goubergrits; J Schaller; U Kertzscher; N van den Bruck; K Poethkow; Ch Petz; H-Ch Hege; A Spuler
Journal:  J R Soc Interface       Date:  2011-09-28       Impact factor: 4.118

2.  Effects of perianeurysmal environment during the growth of cerebral aneurysms: a case study.

Authors:  D M Sforza; C M Putman; S Tateshima; F Viñuela; J R Cebral
Journal:  AJNR Am J Neuroradiol       Date:  2012-02-02       Impact factor: 3.825

3.  Aneurysm rupture following treatment with flow-diverting stents: computational hemodynamics analysis of treatment.

Authors:  J R Cebral; F Mut; M Raschi; E Scrivano; R Ceratto; P Lylyk; C M Putman
Journal:  AJNR Am J Neuroradiol       Date:  2010-11-11       Impact factor: 3.825

4.  Unsteady wall shear stress analysis from image-based computational fluid dynamic aneurysm models under Newtonian and Casson rheological models.

Authors:  Marcelo A Castro; María C Ahumada Olivares; Christopher M Putman; Juan R Cebral
Journal:  Med Biol Eng Comput       Date:  2014-08-26       Impact factor: 2.602

5.  Regional Mapping of Flow and Wall Characteristics of Intracranial Aneurysms.

Authors:  Juan R Cebral; Xinjie Duan; Piyusha S Gade; Bong Jae Chung; Fernando Mut; Khaled Aziz; Anne M Robertson
Journal:  Ann Biomed Eng       Date:  2016-06-27       Impact factor: 3.934

6.  Comparison of arterial transit times estimated using arterial spin labeling.

Authors:  Yufen Chen; Danny J J Wang; John A Detre
Journal:  MAGMA       Date:  2011-08-24       Impact factor: 2.310

7.  Use of Phase-Contrast MRA to Assess Intracranial Venous Sinus Resistance to Drainage in Healthy Individuals.

Authors:  S Fall; G Pagé; J Bettoni; R Bouzerar; O Balédent
Journal:  AJNR Am J Neuroradiol       Date:  2016-12-08       Impact factor: 3.825

8.  Angioarchitectures and Hemodynamic Characteristics of Posterior Communicating Artery Aneurysms and Their Association with Rupture Status.

Authors:  B J Chung; R Doddasomayajula; F Mut; F Detmer; M B Pritz; F Hamzei-Sichani; W Brinjikji; D F Kallmes; C M Jimenez; C M Putman; J R Cebral
Journal:  AJNR Am J Neuroradiol       Date:  2017-08-31       Impact factor: 3.825

9.  Circle of Willis configuration as a determinant of intracranial dolichoectasia.

Authors:  Jose Gutierrez; Sally Sultan; Ahmet Bagci; Tatjana Rundek; Noam Alperin; Mitchell S V Elkind; Ralph L Sacco; Clinton B Wright
Journal:  Cerebrovasc Dis       Date:  2013-11-23       Impact factor: 2.762

10.  Outcome prediction of intracranial aneurysm treatment by flow diverters using machine learning.

Authors:  Nikhil Paliwal; Prakhar Jaiswal; Vincent M Tutino; Hussain Shallwani; Jason M Davies; Adnan H Siddiqui; Rahul Rai; Hui Meng
Journal:  Neurosurg Focus       Date:  2018-11-01       Impact factor: 4.047
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