脳 CFD血流解析 FWCI ランキング 2015-2019
- データベース:PubMed
- 検索キーワード:
(Cerebral OR Brain OR Intracranial OR Neuro) AND (Blood OR Flow OR Hemodynamics OR WSS OR Pressure OR Velocity OR Aneurysm OR Rupture OR Stroke OR Stenosis) AND (CFD OR "Computational Fluid Dynamics") - 検索期間:
2015-01-01-2019-12-31 - ソート基準:FWCI降順(同値の場合は被引用数降順)
- 表示件数:Top 50
- データ更新日:2026-02-12
Frösen 2016 (27.9)
Flow Dynamics of Aneurysm Growth and Rupture: Challenges for the Development of Computational Flow Dynamics as a Diagnostic Tool to Detect Rupture-Prone Aneurysms.
Juhana Frösen
Acta Neurochir Suppl, 2016
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 27.9 | 15 | Article | OpenAlex | PubMed | Google Scholar |
Frösen 2019 (23.2)
Flow-induced, inflammation-mediated arterial wall remodeling in the formation and progression of intracranial aneurysms.
Juhana Frösen, Juan Cebral, Anne M Robertson, Tomohiro Aoki
Neurosurg Focus, 2019 Jul 01
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 23.2 | 301 | Article | OpenAlex | PubMed | Google Scholar |
Callcut 2019 (19.5)
The why and how our trauma patients die: A prospective Multicenter Western Trauma Association study.
Rachael A Callcut, Lucy Z Kornblith, Amanda S Conroy, Anamaria J Robles, Jonathan P Meizoso, Nicholas Namias, David E Meyer, Amanda Haymaker, Michael S Truitt, Vaidehi Agrawal, James M Haan, Kelly L Lightwine, John M Porter, Janika L San Roman, Walter L Biffl, Michael S Hayashi, Michael J Sise, Jayraan Badiee, Gustavo Recinos, Kenji Inaba, Thomas J Schroeppel, Emma Callaghan, Julie A Dunn, Samuel Godin, Robert C McIntyre, Erik D Peltz, Patrick J OʼNeill, Conrad F Diven, Aaron M Scifres, Emily E Switzer, Michaela A West, Sarah Storrs, Daniel C Cullinane, John F Cordova, Ernest E Moore, Hunter B Moore, Alicia R Privette, Evert A Eriksson, Mitchell Jay Cohen
J Trauma Acute Care Surg, 2019 May
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 19.5 | 215 | Article | OpenAlex | PubMed | Google Scholar |
Wang 2016 (12.8)
Flow diverter effect of LVIS stent on cerebral aneurysm hemodynamics: a comparison with Enterprise stents and the Pipeline device.
Chao Wang, Zhongbin Tian, Jian Liu, Linkai Jing, Nikhil Paliwal, Shengzhang Wang, Ying Zhang, Jianping Xiang, Adnan H Siddiqui, Hui Meng, Xinjian Yang
J Transl Med, 2016 Jul 02
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 12.8 | 178 | Article | OpenAlex | PubMed | Google Scholar |
Deosarkar 2015 (12.0)
A Novel Dynamic Neonatal Blood-Brain Barrier on a Chip.
Sudhir P Deosarkar, Balabhaskar Prabhakarpandian, Bin Wang, Joel B Sheffield, Barbara Krynska, Mohammad F Kiani
PLoS One, 2015
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 12.0 | 179 | Article | OpenAlex | PubMed | Google Scholar |
Arzani 2018 (11.0)
Accounting for residence-time in blood rheology models: do we really need non-Newtonian blood flow modelling in large arteries?
Amirhossein Arzani
J R Soc Interface, 2018 Sep 26
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 11.0 | 130 | Article | OpenAlex | PubMed | Google Scholar |
Valen-Sendstad 2018 (11.0)
Real-World Variability in the Prediction of Intracranial Aneurysm Wall Shear Stress: The 2015 International Aneurysm CFD Challenge.
Kristian Valen-Sendstad, Aslak W Bergersen, Yuji Shimogonya, Leonid Goubergrits, Jan Bruening, Jordi Pallares, Salvatore Cito, Senol Piskin, Kerem Pekkan, Arjan J Geers, Ignacio Larrabide, Saikiran Rapaka, Viorel Mihalef, Wenyu Fu, Aike Qiao, Kartik Jain, Sabine Roller, Kent-Andre Mardal, Ramji Kamakoti, Thomas Spirka, Neil Ashton, Alistair Revell, Nicolas Aristokleous, J Graeme Houston, Masanori Tsuji, Fujimaro Ishida, Prahlad G Menon, Leonard D Browne, Stephen Broderick, Masaaki Shojima, Satoshi Koizumi, Michael Barbour, Alberto Aliseda, Hernán G Morales, Thierry Lefèvre, Simona Hodis, Yahia M Al-Smadi, Justin S Tran, Alison L Marsden, Sreeja Vaippummadhom, G Albert Einstein, Alistair G Brown, Kristian Debus, Kuniyasu Niizuma, Sherif Rashad, Shin-Ichiro Sugiyama, M Owais Khan, Adam R Updegrove, Shawn C Shadden, Bart M W Cornelissen, Charles B L M Majoie, Philipp Berg, Sylvia Saalfield, Kenichi Kono, David A Steinman
Cardiovasc Eng Technol, 2018 Dec
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 11.0 | 122 | Article | OpenAlex | PubMed | Google Scholar |
Saqr 2020 (10.6)
What does computational fluid dynamics tell us about intracranial aneurysms? A meta-analysis and critical review.
Khalid M Saqr, Sherif Rashad, Simon Tupin, Kuniyasu Niizuma, Tamer Hassan, Teiji Tominaga, Makoto Ohta
J Cereb Blood Flow Metab, 2020 May
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 10.6 | 119 | Article | OpenAlex | PubMed | Google Scholar |
Soldozy 2019 (10.4)
The biophysical role of hemodynamics in the pathogenesis of cerebral aneurysm formation and rupture.
Sauson Soldozy, Pedro Norat, Mazin Elsarrag, Ajay Chatrath, John S Costello, Jennifer D Sokolowski, Petr Tvrdik, M Yashar S Kalani, Min S Park
Neurosurg Focus, 2019 Jul 01
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 10.4 | 126 | Article | OpenAlex | PubMed | Google Scholar |
Berg 2015 (9.1)
The Computational Fluid Dynamics Rupture Challenge 2013--Phase II: Variability of Hemodynamic Simulations in Two Intracranial Aneurysms.
Philipp Berg, Christoph Roloff, Oliver Beuing, Samuel Voss, Shin-Ichiro Sugiyama, Nicolas Aristokleous, Andreas S Anayiotos, Neil Ashton, Alistair Revell, Neil W Bressloff, Alistair G Brown, Bong Jae Chung, Juan R Cebral, Gabriele Copelli, Wenyu Fu, Aike Qiao, Arjan J Geers, Simona Hodis, Dan Dragomir-Daescu, Emily Nordahl, Yildirim Bora Suzen, Muhammad Owais Khan, Kristian Valen-Sendstad, Kenichi Kono, Prahlad G Menon, Priti G Albal, Otto Mierka, Raphael Münster, Hernán G Morales, Odile Bonnefous, Jan Osman, Leonid Goubergrits, Jordi Pallares, Salvatore Cito, Alberto Passalacqua, Senol Piskin, Kerem Pekkan, Susana Ramalho, Nelson Marques, Stéphane Sanchi, Kristopher R Schumacher, Jess Sturgeon, Helena Švihlová, Jaroslav Hron, Gabriel Usera, Mariana Mendina, Jianping Xiang, Hui Meng, David A Steinman, Gábor Janiga
J Biomech Eng, 2015 Dec
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 9.1 | 95 | Article | OpenAlex | PubMed | Google Scholar |
Liang 2019 (8.8)
Towards the Clinical utility of CFD for assessment of intracranial aneurysm rupture - a systematic review and novel parameter-ranking tool.
Li Liang, David A Steinman, Olivier Brina, Christophe Chnafa, Nicole M Cancelliere, Vitor M Pereira
J Neurointerv Surg, 2019 Feb
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 8.8 | 97 | Article | OpenAlex | PubMed | Google Scholar |
Berg 2019 (8.5)
A review on the reliability of hemodynamic modeling in intracranial aneurysms: why computational fluid dynamics alone cannot solve the equation.
Philipp Berg, Sylvia Saalfeld, Samuel Voß, Oliver Beuing, Gábor Janiga
Neurosurg Focus, 2019 Jul 01
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 8.5 | 100 | Article | OpenAlex | PubMed | Google Scholar |
Anderson 2016 (7.9)
Three-dimensional printing of anatomically accurate, patient specific intracranial aneurysm models.
Jeff R Anderson, Walker L Thompson, Abdulaziz K Alkattan, Orlando Diaz, Richard Klucznik, Yi J Zhang, Gavin W Britz, Robert G Grossman, Christof Karmonik
J Neurointerv Surg, 2016 May
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 7.9 | 91 | Article | OpenAlex | PubMed | Google Scholar |
Feletti 2018 (7.8)
Computational Fluid Dynamics Analysis and Correlation with Intraoperative Aneurysm Features.
Alberto Feletti, Xiangdong Wang, Sandeep Talari, Tushit Mewada, Dilshod Mamadaliev, Riki Tanaka, Yasuhiro Yamada, Yamashiro Kei, Daisuke Suyama, Tukasa Kawase, Yoko Kato
Acta Neurochir Suppl, 2018
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 7.8 | 11 | Article | OpenAlex | PubMed | Google Scholar |
Paliwal 2018 (7.7)
Outcome prediction of intracranial aneurysm treatment by flow diverters using machine learning.
Nikhil Paliwal, Prakhar Jaiswal, Vincent M Tutino, Hussain Shallwani, Jason M Davies, Adnan H Siddiqui, Rahul Rai, Hui Meng
Neurosurg Focus, 2018 Nov 01
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 7.7 | 98 | Article | OpenAlex | PubMed | Google Scholar |
Leng 2019 (7.6)
Hemodynamics and stroke risk in intracranial atherosclerotic disease.
Xinyi Leng, Linfang Lan, Hing Lung Ip, Jill Abrigo, Fabien Scalzo, Haipeng Liu, Xueyan Feng, Ka Lung Chan, Florence S Y Fan, Sze Ho Ma, Hui Fang, Yuming Xu, Jingwei Li, Bing Zhang, Yun Xu, Yannie O Y Soo, Vincent C T Mok, Simon C H Yu, David S Liebeskind, Ka Sing Wong, Thomas W Leung
Ann Neurol, 2019 May
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 7.6 | 102 | Article | OpenAlex | PubMed | Google Scholar |
Jing 2015 (7.4)
Morphologic and Hemodynamic Analysis in the Patients with Multiple Intracranial Aneurysms: Ruptured versus Unruptured.
Linkai Jing, Jixing Fan, Yang Wang, Haiyun Li, Shengzhang Wang, Xinjian Yang, Ying Zhang
PLoS One, 2015
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 7.4 | 101 | Article | OpenAlex | PubMed | Google Scholar |
Chnafa 2018 (7.3)
Better Than Nothing: A Rational Approach for Minimizing the Impact of Outflow Strategy on Cerebrovascular Simulations.
C Chnafa, O Brina, V M Pereira, D A Steinman
AJNR Am J Neuroradiol, 2018 Feb
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 7.3 | 101 | Article | OpenAlex | PubMed | Google Scholar |
Detmer 2018 (7.3)
Development and internal validation of an aneurysm rupture probability model based on patient characteristics and aneurysm location, morphology, and hemodynamics.
Felicitas J Detmer, Bong Jae Chung, Fernando Mut, Martin Slawski, Farid Hamzei-Sichani, Christopher Putman, Carlos Jiménez, Juan R Cebral
Int J Comput Assist Radiol Surg, 2018 Nov
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 7.3 | 77 | Article | OpenAlex | PubMed | Google Scholar |
Can 2016 (7.2)
Association of Hemodynamic Factors With Intracranial Aneurysm Formation and Rupture: Systematic Review and Meta-analysis.
Anil Can, Rose Du
Neurosurgery, 2016 Apr
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 7.2 | 139 | Article | OpenAlex | PubMed | Google Scholar |
Ouared 2016 (7.1)
Computational fluid dynamics analysis of flow reduction induced by flow-diverting stents in intracranial aneurysms: a patient-unspecific hemodynamics change perspective.
Rafik Ouared, Ignacio Larrabide, Olivier Brina, Pierre Bouillot, Gorislav Erceg, Hasan Yilmaz, Karl-Olof Lovblad, Vitor Mendes Pereira
J Neurointerv Surg, 2016 Dec
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 7.1 | 66 | Article | OpenAlex | PubMed | Google Scholar |
Detmer 2019 (7.1)
Associations of hemodynamics, morphology, and patient characteristics with aneurysm rupture stratified by aneurysm location.
Felicitas J Detmer, Bong Jae Chung, Carlos Jimenez, Farid Hamzei-Sichani, David Kallmes, Christopher Putman, Juan R Cebral
Neuroradiology, 2019 Mar
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 7.1 | 94 | Article | OpenAlex | PubMed | Google Scholar |
Roloff 2019 (6.9)
Comparison of intracranial aneurysm flow quantification techniques: standard PIV vs stereoscopic PIV vs tomographic PIV vs phase-contrast MRI vs CFD.
Christoph Roloff, Daniel Stucht, Oliver Beuing, Philipp Berg
J Neurointerv Surg, 2019 Mar
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 6.9 | 68 | Article | OpenAlex | PubMed | Google Scholar |
Munarriz 2016 (6.6)
Basic Principles of Hemodynamics and Cerebral Aneurysms.
Pablo M Munarriz, Pedro A Gómez, Igor Paredes, Ana M Castaño-Leon, Santiago Cepeda, Alfonso Lagares
World Neurosurg, 2016 Apr
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 6.6 | 74 | Article | OpenAlex | PubMed | Google Scholar |
Mut 2015 (6.6)
Association between hemodynamic conditions and occlusion times after flow diversion in cerebral aneurysms.
Fernando Mut, Marcelo Raschi, Esteban Scrivano, Carlos Bleise, Jorge Chudyk, Rosana Ceratto, Pedro Lylyk, Juan R Cebral
J Neurointerv Surg, 2015 Apr
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 6.6 | 108 | Article | OpenAlex | PubMed | Google Scholar |
Murayama 2019 (6.6)
Computational fluid dynamics as a risk assessment tool for aneurysm rupture.
Yuichi Murayama, Soichiro Fujimura, Tomoaki Suzuki, Hiroyuki Takao
Neurosurg Focus, 2019 Jul 01
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 6.6 | 100 | Article | OpenAlex | PubMed | Google Scholar |
Zhao 2017 (6.5)
The proton-coupled folate transporter (PCFT-SLC46A1) and the syndrome of systemic and cerebral folate deficiency of infancy: Hereditary folate malabsorption.
Rongbao Zhao, Srinivas Aluri, I David Goldman
Mol Aspects Med, 2017 Feb
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 6.5 | 75 | Article | OpenAlex | PubMed | Google Scholar |
Zhou 2017 (6.5)
Association of wall shear stress with intracranial aneurysm rupture: systematic review and meta-analysis.
Geng Zhou, Yueqi Zhu, Yanling Yin, Ming Su, Minghua Li
Sci Rep, 2017 Jul 13
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 6.5 | 114 | Article | OpenAlex | PubMed | Google Scholar |
Fan 2015 (6.5)
Morphological-Hemodynamic Characteristics of Intracranial Bifurcation Mirror Aneurysms.
Jixing Fan, Yang Wang, Jian Liu, Linkai Jing, Chao Wang, Chuanhui Li, Xinjian Yang, Ying Zhang
World Neurosurg, 2015 Jul
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 6.5 | 58 | Article | OpenAlex | PubMed | Google Scholar |
Xiang 2015 (6.2)
High-fidelity virtual stenting: modeling of flow diverter deployment for hemodynamic characterization of complex intracranial aneurysms.
Jianping Xiang, Robert J Damiano, Ning Lin, Kenneth V Snyder, Adnan H Siddiqui, Elad I Levy, Hui Meng
J Neurosurg, 2015 Oct
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 6.2 | 67 | Article | OpenAlex | PubMed | Google Scholar |
Cebral 2015 (6.2)
Analysis of hemodynamics and wall mechanics at sites of cerebral aneurysm rupture.
Juan R Cebral, Mariano Vazquez, Daniel M Sforza, Guillaume Houzeaux, Satoshi Tateshima, Esteban Scrivano, Carlos Bleise, Pedro Lylyk, Christopher M Putman
J Neurointerv Surg, 2015 Jul
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 6.2 | 101 | Article | OpenAlex | PubMed | Google Scholar |
Malaspinas 2016 (6.0)
A spatio-temporal model for spontaneous thrombus formation in cerebral aneurysms.
O Malaspinas, A Turjman, D Ribeiro de Sousa, G Garcia-Cardena, M Raes, P-T T Nguyen, Y Zhang, G Courbebaisse, C Lelubre, K Zouaoui Boudjeltia, B Chopard
J Theor Biol, 2016 Apr 07
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 6.0 | 33 | Article | OpenAlex | PubMed | Google Scholar |
Polanczyk 2018 (6.0)
Computational Fluid Dynamics as an Engineering Tool for the Reconstruction of Hemodynamics after Carotid Artery Stenosis Operation: A Case Study.
Andrzej Polanczyk, Michal Podgorski, Tomasz Wozniak, Ludomir Stefanczyk, Michal Strzelecki
Medicina (Kaunas), 2018 Jun 01
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 6.0 | 53 | Article | OpenAlex | PubMed | Google Scholar |
Chen 2019 (5.9)
Characteristics of Wall Shear Stress and Pressure of Intracranial Atherosclerosis Analyzed by a Computational Fluid Dynamics Model: A Pilot Study.
Zimo Chen, Haiqiang Qin, Jia Liu, Bokai Wu, Zaiheng Cheng, Yong Jiang, Liping Liu, Lina Jing, Xinyi Leng, Jing Jing, Yilong Wang, Yongjun Wang
Front Neurol, 2019
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 5.9 | 68 | Article | OpenAlex | PubMed | Google Scholar |
Sugiyama 2016 (5.8)
Blood Flow Into Basilar Tip Aneurysms: A Predictor for Recanalization After Coil Embolization.
Shin-Ichiro Sugiyama, Kuniyasu Niizuma, Kenichi Sato, Sherif Rashad, Misaki Kohama, Hidenori Endo, Toshiki Endo, Yasushi Matsumoto, Makoto Ohta, Teiji Tominaga
Stroke, 2016 Oct
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 5.8 | 78 | Article | OpenAlex | PubMed | Google Scholar |
Suzuki 2016 (5.8)
Determining the Presence of Thin-Walled Regions at High-Pressure Areas in Unruptured Cerebral Aneurysms by Using Computational Fluid Dynamics.
Tomoaki Suzuki, Hiroyuki Takao, Takashi Suzuki, Yukinao Kambayashi, Mitsuyoshi Watanabe, Hiroki Sakamoto, Issei Kan, Kengo Nishimura, Shogo Kaku, Toshihiro Ishibashi, Satoshi Ikeuchi, Makoto Yamamoto, Yukihiko Fujii, Yuichi Murayama
Neurosurgery, 2016 Oct
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 5.8 | 71 | Article | OpenAlex | PubMed | Google Scholar |
Compagne 2019 (5.7)
Flow Patterns in Carotid Webs: A Patient-Based Computational Fluid Dynamics Study.
K C J Compagne, K Dilba, E J Postema, A C G M van Es, B J Emmer, C B L M Majoie, W H van Zwam, D W J Dippel, J J Wentzel, A van der Lugt, F J H Gijsen
AJNR Am J Neuroradiol, 2019 Apr
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 5.7 | 66 | Article | OpenAlex | PubMed | Google Scholar |
Suzuki 2020 (5.6)
Rupture Risk of Small Unruptured Intracranial Aneurysms in Japanese Adults.
Takashi Suzuki, Hiroyuki Takao, Saikiran Rapaka, Soichiro Fujimura, Cosmin Ioan Nita, Yuya Uchiyama, Hiroshi Ohno, Katharina Otani, Chihebeddine Dahmani, Viorel Mihalef, Puneet Sharma, Ashraf Mohamed, Thomas Redel, Toshihiro Ishibashi, Makoto Yamamoto, Yuichi Murayama
Stroke, 2020 Feb
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 5.6 | 58 | Article | OpenAlex | PubMed | Google Scholar |
Tazraei 2015 (5.5)
The influence of the non-Newtonian properties of blood on blood-hammer through the posterior cerebral artery.
Pedram Tazraei, Alireza Riasi, Behrouz Takabi
Math Biosci, 2015 Jun
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 5.5 | 37 | Article | OpenAlex | PubMed | Google Scholar |
Cebral 2015 (5.5)
Wall Mechanical Properties and Hemodynamics of Unruptured Intracranial Aneurysms.
J R Cebral, X Duan, B J Chung, C Putman, K Aziz, A M Robertson
AJNR Am J Neuroradiol, 2015 Sep
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 5.5 | 73 | Article | OpenAlex | PubMed | Google Scholar |
Gholampour 2018 (5.5)
Relationship of Morphologic Changes in the Brain and Spinal Cord and Disease Symptoms with Cerebrospinal Fluid Hydrodynamic Changes in Patients with Chiari Malformation Type I.
Seifollah Gholampour, Mehran Taher
World Neurosurg, 2018 Aug
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 5.5 | 29 | Article | OpenAlex | PubMed | Google Scholar |
Kaneko 2018 (5.4)
A patient-specific intracranial aneurysm model with endothelial lining: a novel in vitro approach to bridge the gap between biology and flow dynamics.
Naoki Kaneko, Toshihiro Mashiko, Katsunari Namba, Satoshi Tateshima, Eiju Watanabe, Kensuke Kawai
J Neurointerv Surg, 2018 Mar
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 5.4 | 54 | Article | OpenAlex | PubMed | Google Scholar |
Khan 2015 (5.3)
Narrowing the Expertise Gap for Predicting Intracranial Aneurysm Hemodynamics: Impact of Solver Numerics versus Mesh and Time-Step Resolution.
M O Khan, K Valen-Sendstad, D A Steinman
AJNR Am J Neuroradiol, 2015 Jul
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 5.3 | 85 | Article | OpenAlex | PubMed | Google Scholar |
Poelma 2015 (5.3)
Transitional flow in aneurysms and the computation of haemodynamic parameters.
Christian Poelma, Paul N Watton, Yiannis Ventikos
J R Soc Interface, 2015 Apr 06
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 5.3 | 64 | Article | OpenAlex | PubMed | Google Scholar |
Berg 2016 (5.3)
Endothelialization of over- and undersized flow-diverter stents at covered vessel side branches: An in vivo and in silico study.
Philipp Berg, Christina Iosif, Sebastien Ponsonnard, Catherine Yardin, Gábor Janiga, Charbel Mounayer
J Biomech, 2016 Jan 04
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 5.3 | 54 | Article | OpenAlex | PubMed | Google Scholar |
Ravindran 2019 (5.2)
Endothelialization following Flow Diversion for Intracranial Aneurysms: A Systematic Review.
K Ravindran, M M Salem, A Y Alturki, A J Thomas, C S Ogilvy, J M Moore
AJNR Am J Neuroradiol, 2019 Feb
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 5.2 | 72 | Article | OpenAlex | PubMed | Google Scholar |
Steinman 2019 (5.2)
How patient specific are patient-specific computational models of cerebral aneurysms? An overview of sources of error and variability.
David A Steinman, Vitor M Pereira
Neurosurg Focus, 2019 Jul 01
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 5.2 | 69 | Article | OpenAlex | PubMed | Google Scholar |
Bradley 2016 (5.2)
Cerebrospinal fluid flow in adults.
William G Bradley, Victor Haughton, Kent-Andre Mardal
Handb Clin Neurol, 2016
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 5.2 | 14 | Article | OpenAlex | PubMed | Google Scholar |
van Bakel 2018 (5.2)
A computational analysis of different endograft designs for Zone 0 aortic arch repair.
Theodorus M van Bakel, Christopher J Arthurs, Joost A van Herwaarden, Frans L Moll, Kim A Eagle, Himanshu J Patel, Santi Trimarchi, C Alberto Figueroa
Eur J Cardiothorac Surg, 2018 Aug 01
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 5.2 | 55 | Article | OpenAlex | PubMed | Google Scholar |
Berg 2018 (5.2)
Does the DSA reconstruction kernel affect hemodynamic predictions in intracranial aneurysms? An analysis of geometry and blood flow variations.
P Berg, S Saalfeld, S Voß, T Redel, B Preim, G Janiga, O Beuing
J Neurointerv Surg, 2018 Mar
| FWCI | Cited by | Link | |||
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| 5.2 | 38 | Article | OpenAlex | PubMed | Google Scholar |