脳 CFD血流解析 FWCI ランキング 2020-2024
- 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:
2020-01-01-2024-12-31 - 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
Novak 2020 (24.0)
Robotic fluidic coupling and interrogation of multiple vascularized organ chips.
Richard Novak, Miles Ingram, Susan Marquez, Debarun Das, Aaron Delahanty, Anna Herland, Ben M Maoz, Sauveur S F Jeanty, Mahadevabharath R Somayaji, Morgan Burt, Elizabeth Calamari, Angeliki Chalkiadaki, Alexander Cho, Youngjae Choe, David Benson Chou, Michael Cronce, Stephanie Dauth, Toni Divic, Jose Fernandez-Alcon, Thomas Ferrante, John Ferrier, Edward A FitzGerald, Rachel Fleming, Sasan Jalili-Firoozinezhad, Thomas Grevesse, Josue A Goss, Tiama Hamkins-Indik, Olivier Henry, Chris Hinojosa, Tessa Huffstater, Kyung-Jin Jang, Ville Kujala, Lian Leng, Robert Mannix, Yuka Milton, Janna Nawroth, Bret A Nestor, Carlos F Ng, Blakely O'Connor, Tae-Eun Park, Henry Sanchez, Josiah Sliz, Alexandra Sontheimer-Phelps, Ben Swenor, Guy Thompson, George J Touloumes, Zachary Tranchemontagne, Norman Wen, Moran Yadid, Anthony Bahinski, Geraldine A Hamilton, Daniel Levner, Oren Levy, Andrzej Przekwas, Rachelle Prantil-Baun, Kevin K Parker, Donald E Ingber
Nat Biomed Eng, 2020 Apr
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 24.0 | 382 | Article | OpenAlex | PubMed | Google Scholar |
Settecase 2021 (23.3)
Advanced vascular imaging techniques.
Fabio Settecase, Vitaliy L Rayz
Handb Clin Neurol, 2021
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 23.3 | 21 | Article | OpenAlex | PubMed | Google Scholar |
Ishida 2021 (22.5)
Computational Fluid Dynamics for Cerebral Aneurysms in Clinical Settings.
Fujimaro Ishida, Masanori Tsuji, Satoru Tanioka, Katsuhiro Tanaka, Shinichi Yoshimura, Hidenori Suzuki
Acta Neurochir Suppl, 2021
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 22.5 | 29 | Article | OpenAlex | PubMed | Google Scholar |
Salavatidezfouli 2023 (20.9)
Investigation of the stent induced deformation on hemodynamic of internal carotid aneurysms by computational fluid dynamics.
Sajad Salavatidezfouli, As'ad Alizadeh, M Barzegar Gerdroodbary, Amir Sabernaeemi, Amir Musa Abazari, Armin Sheidani
Sci Rep, 2023 May 02
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 20.9 | 68 | Article | OpenAlex | PubMed | Google Scholar |
Sabernaeemi 2023 (20.6)
Influence of stent-induced vessel deformation on hemodynamic feature of bloodstream inside ICA aneurysms.
Amir Sabernaeemi, M Barzegar Gerdroodbary, Sajad Salavatidezfouli, Peiman Valipour
Biomech Model Mechanobiol, 2023 Aug
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 20.6 | 67 | Article | OpenAlex | PubMed | Google Scholar |
Reid 2021 (20.1)
An Introduction to Biomedical Computational Fluid Dynamics.
Luke Reid
Adv Exp Med Biol, 2021
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 20.1 | 22 | Article | OpenAlex | PubMed | Google Scholar |
Wiśniewski 2024 (11.2)
Numerical flow experiment for assessing predictors for cerebrovascular accidents in patients with PHACES syndrome.
Karol Wiśniewski, Zbigniew Tyfa, Piotr Reorowicz, Michael G Brandel, Thomas Adel, Damian Obidowski, Krzysztof Jóźwik, Michael L Levy
Sci Rep, 2024 Mar 02
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 11.2 | 9 | Article | OpenAlex | PubMed | Google Scholar |
Luisi 2024 (11.1)
Evaluating the accuracy of cerebrovascular computational fluid dynamics modeling through time-resolved experimental validation.
Claudio A Luisi, Tom L Witter, Omid Nikoubashman, Martin Wiesmann, Ulrich Steinseifer, Michael Neidlin
Sci Rep, 2024 Apr 08
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 11.1 | 12 | Article | OpenAlex | PubMed | Google Scholar |
Song 2024 (10.8)
Intracranial aneurysm CTA images and 3D models dataset with clinical morphological and hemodynamic data.
Miao Song, Simin Wang, Qian Qian, Yuan Zhou, Yi Luo, Xijun Gong
Sci Data, 2024 Nov 12
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 10.8 | 14 | 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 |
Mu 2023 (10.4)
An attention residual u-net with differential preprocessing and geometric postprocessing: Learning how to segment vasculature including intracranial aneurysms.
Nan Mu, Zonghan Lyu, Mostafa Rezaeitaleshmahalleh, Jinshan Tang, Jingfeng Jiang
Med Image Anal, 2023 Feb
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 10.4 | 88 | Article | OpenAlex | PubMed | Google Scholar |
Pan 2022 (10.4)
Network pharmacology and experimental validation-based approach to understand the effect and mechanism of Taohong Siwu Decoction against ischemic stroke.
Lingyu Pan, Can Peng, Lei Wang, Lili Li, Shi Huang, Changyi Fei, Ni Wang, Furui Chu, Daiyin Peng, Xianchun Duan
J Ethnopharmacol, 2022 Aug 10
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 10.4 | 77 | Article | OpenAlex | PubMed | Google Scholar |
Liu 2021 (10.3)
Comparison of Newtonian and Non-newtonian Fluid Models in Blood Flow Simulation in Patients With Intracranial Arterial Stenosis.
Haipeng Liu, Linfang Lan, Jill Abrigo, Hing Lung Ip, Yannie Soo, Dingchang Zheng, Ka Sing Wong, Defeng Wang, Lin Shi, Thomas W Leung, Xinyi Leng
Front Physiol, 2021
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 10.3 | 81 | Article | OpenAlex | PubMed | Google Scholar |
Wang 2022 (9.4)
Deep learning-based hemodynamic prediction of carotid artery stenosis before and after surgical treatments.
Sirui Wang, Dandan Wu, Gaoyang Li, Zhiyuan Zhang, Weizhong Xiao, Ruichen Li, Aike Qiao, Long Jin, Hao Liu
Front Physiol, 2022
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 9.4 | 28 | Article | OpenAlex | PubMed | Google Scholar |
Wang 2024 (9.2)
Risk factors and predictive indicators of rupture in cerebral aneurysms.
Xiguang Wang, Xu Huang
Front Physiol, 2024
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 9.2 | 12 | Article | OpenAlex | PubMed | Google Scholar |
El Sayed 2024 (9.1)
Subjects with carotid webs demonstrate pro-thrombotic hemodynamics compared to subjects with carotid atherosclerosis.
Retta El Sayed, Carissa J Lucas, Hannah L Cebull, Fadi B Nahab, Diogo C Haussen, Jason W Allen, John N Oshinski
Sci Rep, 2024 May 02
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 9.1 | 11 | Article | OpenAlex | PubMed | Google Scholar |
Kim 2024 (8.4)
Quantitative analysis of hemodynamic changes induced by the discrepancy between the sizes of the flow diverter and parent artery.
Sunghan Kim, Hyeondong Yang, Je Hoon Oh, Yong Bae Kim
Sci Rep, 2024 May 09
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 8.4 | 11 | Article | OpenAlex | PubMed | Google Scholar |
Rutkowski 2021 (8.4)
Enhancement of cerebrovascular 4D flow MRI velocity fields using machine learning and computational fluid dynamics simulation data.
David R Rutkowski, Alejandro Roldán-Alzate, Kevin M Johnson
Sci Rep, 2021 May 13
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 8.4 | 65 | Article | OpenAlex | PubMed | Google Scholar |
Sherif 2024 (8.1)
Computational Fluid Dynamic Simulations of Cerebral Aneurysms.
Camillo Sherif, Gerhard Sommer, Peter Schiretz, Gerhard A Holzapfel
Adv Exp Med Biol, 2024
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 8.1 | 1 | Article | OpenAlex | PubMed | Google Scholar |
Goetz 2024 (7.7)
Analysis of Intracranial Aneurysm Haemodynamics Altered by Wall Movement.
Aurèle Goetz, Pablo Jeken-Rico, Yves Chau, Jacques Sédat, Aurélien Larcher, Elie Hachem
Bioengineering (Basel), 2024 Mar 09
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 7.7 | 10 | Article | OpenAlex | PubMed | Google Scholar |
Paritala 2023 (7.7)
Reproducibility of the computational fluid dynamic analysis of a cerebral aneurysm monitored over a decade.
Phani Kumari Paritala, Haveena Anbananthan, Jacob Hautaniemi, Macauley Smith, Antony George, Mark Allenby, Jessica Benitez Mendieta, Jiaqiu Wang, Liam Maclachlan, EeShern Liang, Marita Prior, Prasad K D V Yarlagadda, Craig Winter, Zhiyong Li
Sci Rep, 2023 Jan 05
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 7.7 | 25 | Article | OpenAlex | PubMed | Google Scholar |
Závodszky 2024 (7.6)
Fractals and Chaos in the Hemodynamics of Intracranial Aneurysms.
Gábor Závodszky, Dániel Gyürki, György Károlyi, István Szikora, György Paál
Adv Neurobiol, 2024
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 7.6 | 2 | Article | OpenAlex | PubMed | Google Scholar |
Rostam-Alilou 2022 (7.5)
Fluid-structure interaction (FSI) simulation for studying the impact of atherosclerosis on hemodynamics, arterial tissue remodeling, and initiation risk of intracranial aneurysms.
Ali A Rostam-Alilou, Hamid R Jarrah, Ali Zolfagharian, Mahdi Bodaghi
Biomech Model Mechanobiol, 2022 Oct
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 7.5 | 45 | Article | OpenAlex | PubMed | Google Scholar |
Ozturk 2023 (6.9)
Continuous positive airway pressure increases CSF flow and glymphatic transport.
Burhan Ozturk, Sunil Koundal, Ehab Al Bizri, Xinan Chen, Zachary Gursky, Feng Dai, Andrew Lim, Paul Heerdt, Jonathan Kipnis, Allen Tannenbaum, Hedok Lee, Helene Benveniste
JCI Insight, 2023 Jun 22
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 6.9 | 33 | Article | OpenAlex | PubMed | Google Scholar |
Luciano 2024 (6.9)
Turbulent blood flow in a cerebral artery with an aneurysm.
R D Luciano, B L da Silva, X B Chen, D J Bergstrom
J Biomech, 2024 Jul
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 6.9 | 9 | Article | OpenAlex | PubMed | Google Scholar |
Vandenbulcke 2024 (6.7)
A computational fluid dynamics study to assess the impact of coughing on cerebrospinal fluid dynamics in Chiari type 1 malformation.
Sarah Vandenbulcke, Paul Condron, Soroush Safaei, Samantha Holdsworth, Joris Degroote, Patrick Segers
Sci Rep, 2024 Jun 03
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 6.7 | 5 | Article | OpenAlex | PubMed | Google Scholar |
Yi 2022 (6.6)
Hemodynamic characteristics in a cerebral aneurysm model using non-Newtonian blood analogues.
Hang Yi, Zifeng Yang, Mark Johnson, Luke Bramlage, Bryan Ludwig
Phys Fluids (1994), 2022 Oct
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 6.6 | 39 | Article | OpenAlex | PubMed | Google Scholar |
Tsubata 2023 (6.4)
Pulmonary artery blood flow dynamics in chronic thromboembolic pulmonary hypertension.
Hideo Tsubata, Naohiko Nakanishi, Keiichi Itatani, Masao Takigami, Yuki Matsubara, Takeshi Ogo, Tetsuya Fukuda, Hitoshi Matsuda, Satoaki Matoba
Sci Rep, 2023 Apr 20
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 6.4 | 19 | Article | OpenAlex | PubMed | Google Scholar |
Zhang 2022 (6.3)
Wall Shear Stress Estimation for 4D Flow MRI Using Navier-Stokes Equation Correction.
Jiacheng Zhang, Sean M Rothenberger, Melissa C Brindise, Michael Markl, Vitaliy L Rayz, Pavlos P Vlachos
Ann Biomed Eng, 2022 Dec
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 6.3 | 21 | Article | OpenAlex | PubMed | Google Scholar |
Gholampour 2021 (6.2)
Boundary conditions investigation to improve computer simulation of cerebrospinal fluid dynamics in hydrocephalus patients.
Seifollah Gholampour, Nasser Fatouraee
Commun Biol, 2021 Mar 23
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 6.2 | 60 | Article | OpenAlex | PubMed | Google Scholar |
Boniforti 2024 (6.1)
Endovascular Treatment of Intracranial Aneurysm: The Importance of the Rheological Model in Blood Flow Simulations.
Maria Antonietta Boniforti, Giorgia Vittucci, Roberto Magini
Bioengineering (Basel), 2024 May 21
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 6.1 | 8 | Article | OpenAlex | PubMed | Google Scholar |
Yang 2024 (6.1)
Influence of circle of Willis modeling on hemodynamic parameters in anterior communicating artery aneurysms and recommendations for model selection.
Hyeondong Yang, Kwang-Chun Cho, Ineui Hong, Yeonwoo Kim, Yong Bae Kim, Jung-Jae Kim, Je Hoon Oh
Sci Rep, 2024 Apr 11
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 6.1 | 8 | Article | OpenAlex | PubMed | Google Scholar |
Saglietto 2024 (6.0)
Role of the vessel morphology on the lenticulostriate arteries hemodynamics during atrial fibrillation: A CFD-based multivariate regression analysis.
Andrea Saglietto, Francesco Tripoli, Jaco Zwanenburg, Geert Jan Biessels, Gaetano Maria De Ferrari, Matteo Anselmino, Luca Ridolfi, Stefania Scarsoglio
Comput Methods Programs Biomed, 2024 Sep
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 6.0 | 7 | Article | OpenAlex | PubMed | Google Scholar |
Sarrami-Foroushani 2021 (6.0)
In-silico trial of intracranial flow diverters replicates and expands insights from conventional clinical trials.
Ali Sarrami-Foroushani, Toni Lassila, Michael MacRaild, Joshua Asquith, Kit C B Roes, James V Byrne, Alejandro F Frangi
Nat Commun, 2021 Jun 23
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 6.0 | 67 | 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 |
Fillingham 2024 (5.8)
Computational Fluid Dynamics of Cerebrospinal Fluid.
Patrick Fillingham, Mehmet Kurt, Swati Rane Levendovszky, Michael R Levitt
Adv Exp Med Biol, 2024
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 5.8 | 1 | Article | OpenAlex | PubMed | Google Scholar |
Khani 2022 (5.6)
Human in silico trials for parametric computational fluid dynamics investigation of cerebrospinal fluid drug delivery: impact of injection location, injection protocol, and physiology.
Mohammadreza Khani, Goutham Kumar Reddy Burla, Lucas R Sass, Ostin N Arters, Tao Xing, Haiming Wu, Bryn A Martin
Fluids Barriers CNS, 2022 Jan 28
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 5.6 | 42 | 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 |
Teng 2022 (5.5)
Combined Curvature and Wall Shear Stress Analysis of Abdominal Aortic Aneurysm: An Analysis of Rupture Risk Factors.
Biyun Teng, Zhijun Zhou, Yu Zhao, Zhe Wang
Cardiovasc Intervent Radiol, 2022 Jun
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 5.5 | 27 | Article | OpenAlex | PubMed | Google Scholar |
Fujimura 2024 (5.5)
Hemodynamic and morphological differences in cerebral aneurysms between before and after rupture.
Soichiro Fujimura, Yuma Yamanaka, Hiroyuki Takao, Toshihiro Ishibashi, Katharina Otani, Kostadin Karagiozov, Koji Fukudome, Makoto Yamamoto, Yuichi Murayama
J Neurosurg, 2024 Mar 01
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 5.5 | 18 | Article | OpenAlex | PubMed | Google Scholar |
Liu 2021 (5.5)
Corrigendum: Comparison of Newtonian and Non-newtonian Fluid Models in Blood Flow Simulation in Patients With Intracranial Arterial Stenosis.
Haipeng Liu, Linfang Lan, Jill Abrigo, Hing Lung Ip, Yannie Soo, Dingchang Zheng, Ka Sing Wong, Defeng Wang, Lin Shi, Thomas W Leung, Xinyi Leng
Front Physiol, 2021
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 5.5 | 43 | Article | OpenAlex | PubMed | Google Scholar |
Babanezhad 2020 (5.4)
Pattern recognition of the fluid flow in a 3D domain by combination of Lattice Boltzmann and ANFIS methods.
Meisam Babanezhad, Ali Taghvaie Nakhjiri, Azam Marjani, Saeed Shirazian
Sci Rep, 2020 Sep 28
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 5.4 | 36 | Article | OpenAlex | PubMed | Google Scholar |
Kizhisseri 2023 (5.4)
An analytical method informed by clinical imaging data for estimating outlet boundary conditions in computational fluid dynamics analysis of carotid artery blood flow.
Muhsin Kizhisseri, Saleh Gharaie, Jorg Schluter
Sci Rep, 2023 Sep 11
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 5.4 | 16 | Article | OpenAlex | PubMed | Google Scholar |
Feng 2024 (5.4)
Cerebral Hemodynamics Underlying Artery-to-Artery Embolism in Symptomatic Intracranial Atherosclerotic Disease.
Xueyan Feng, Hui Fang, Bonaventure Y M Ip, Ka Lung Chan, Shuang Li, Xuan Tian, Lina Zheng, Yuying Liu, Linfang Lan, Haipeng Liu, Jill Abrigo, Sze Ho Ma, Florence S Y Fan, Vincent H L Ip, Yannie O Y Soo, Vincent C T Mok, Bo Song, Thomas W Leung, Yuming Xu, Xinyi Leng
Transl Stroke Res, 2024 Jun
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 5.4 | 16 | Article | OpenAlex | PubMed | Google Scholar |
Wiśniewski 2024 (5.4)
Computational fluid dynamics; a new diagnostic tool in giant intracerebral aneurysm treatment.
Karol Wiśniewski, Piotr Reorowicz, Zbigniew Tyfa, Benjamin Price, Anne Jian, Andreas Fahlström, Damian Obidowski, Dariusz J Jaskólski, Krzysztof Jóźwik, Katharine Drummond, Lars Wessels, Peter Vajkoczy, Alexios A Adamides
Comput Biol Med, 2024 Oct
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 5.4 | 7 | Article | OpenAlex | PubMed | Google Scholar |
Karnam 2024 (5.4)
Description of the local hemodynamic environment in intracranial aneurysm wall subdivisions.
Yogesh Karnam, Fernando Mut, Alexander K Yu, Boyle Cheng, Sepideh Amin-Hanjani, Fady T Charbel, Henry H Woo, Mika Niemelä, Riikka Tulamo, Behnam Rezai Jahromi, Juhana Frösen, Yasutaka Tobe, Anne M Robertson, Juan R Cebral
Int J Numer Method Biomed Eng, 2024 Aug
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 5.4 | 7 | Article | OpenAlex | PubMed | Google Scholar |
Sangha 2023 (5.3)
Protective effects of pyrroloquinoline quinone in brain folate deficiency.
Vishal Sangha, Sara Aboulhassane, Qing Rui Qu, Reina Bendayan
Fluids Barriers CNS, 2023 Nov 20
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 5.3 | 13 | Article | OpenAlex | PubMed | Google Scholar |
Philip 2022 (5.3)
Hemodynamic simulation of abdominal aortic aneurysm on idealised models: Investigation of stress parameters during disease progression.
Nimmy Thankom Philip, B S V Patnaik, B J Sudhir
Comput Methods Programs Biomed, 2022 Jan
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 5.3 | 41 | Article | OpenAlex | PubMed | Google Scholar |
Rossinelli 2024 (5.3)
Large-scale in-silico analysis of CSF dynamics within the subarachnoid space of the optic nerve.
Diego Rossinelli, Gilles Fourestey, Hanspeter Esriel Killer, Albert Neutzner, Gianluca Iaccarino, Luca Remonda, Jatta Berberat
Fluids Barriers CNS, 2024 Feb 28
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 5.3 | 10 | Article | OpenAlex | PubMed | Google Scholar |
Yang 2023 (5.3)
Rupture risk prediction of cerebral aneurysms using a novel convolutional neural network-based deep learning model.
Hyeondong Yang, Kwang-Chun Cho, Jung-Jae Kim, Jae Ho Kim, Yong Bae Kim, Je Hoon Oh
J Neurointerv Surg, 2023 Feb
| FWCI | Cited by | Link | |||
|---|---|---|---|---|---|
| 5.3 | 31 | Article | OpenAlex | PubMed | Google Scholar |