Formation of Saccular Cerebral Aneurysms May Require Proliferation of the Arterial Wall: Computational Investigation
スポンサーリンク
概要
- 論文の詳細を見る
We have performed numerical simulations to examine saccular cerebral aneurysm formation at the outer curve of a bent artery. A U-shaped arterial geometry with torsion, which was modeled on part of the human internal carotid artery, has been employed. A new numerical model was proposed to take into account proliferation as well as degradation of the arterial wall. Proliferation of the arterial wall was modeled by surface area expansion in high wall shear stress region. Based on wall shear stress distribution on the artery, we have investigated aneurysm formation for the following three conditions: (a) strength degradation of the wall, (b) proliferation of the wall, and (c) both strength degradation and proliferation of the wall. A saccular aneurysm shape was not observed when considering only arterial wall degradation up to 90%. However, the saccular shape formed when proliferation of the arterial wall was also taken into consideration. The resultant shape was consistent with clinical observations. Our findings have suggested that a saccular aneurysm may not be formed by degradation of the arterial wall alone, but also require its proliferation.
著者
-
Yamaguchi Takami
Department Of Bioengineering And Robotics Graduate School Of Engineering Tohoku University
-
Imai Yohsuke
Department of Bioengineering and Robotics, Graduate School of Engineering, Tohoku University
-
Matsuki Noriaki
Department Of Bioengineering And Robotics Tohoku University:new Industry Creation Hatchery Center To
-
Mori Daisuke
Department Of Computational Science And Engineering Nagoya University
-
ISHIKAWA Takuji
Department of Bioengineering & Robotics, Graduate School of Engineering, Tohoku University
-
ISHIKAWA Takuji
Department of Bioengineering and Robotics, Graduate Shool of Engineering, Tohoku University
-
SHIMOGONYA Yuji
Department of Bioengineering and Robotics, Graduate Shool of Engineering, Tohoku University
-
IMAI Yohsuke
Department of Bioengineering and Robotics, Graduate Shool of Engineering, Tohoku University
-
MATSUKI Noriaki
Department of Biomedical Engineering, Graduate School of Biomedical Engineering, Tohoku University
-
YAMAGUCHI Takami
Department of Bioengineering & Robotics, Graduate School of Engineering, Tohoku University
-
YAMAGUCHI Takami
Department of Biomedical Engineering, Graduate School of Biomedical Engineering, Tohoku University
関連論文
- Multiple Inflammatory Pseudotumor of the Liver, Mimicking Cholangiocarcinoma with Tumor Embolus in the Hepatic Vein : Report of a Case
- Primary colonic malignant melanoma
- Iliac Lymph Node Metastasis of an Unknown Primary Tumor : Report of a Case
- Differential expression of Janus kinase 3 (JAK3), matrix metalloproteinase 13 (MMP13), heat shock protein 60 (HSP60), and mouse double minute 2 (MDM2) in human colorectal cancer progression using human cancer cDNA microarrays
- Computational Flow Dynamics in Abdominal Aortic Aneurysm Using Multislice Computed Tomography
- Technical Application of Three-dimensional Visualization and Measurement for Breast Cancer Using Multidetector-row CT Scanner
- Is the Virtual Reality a Gentle Technology for Humans? : An Experimental Study of the Safety Features of a Virtual Reality System (Special Issue on Networked Reality)
- Proposal of a Deformable Erythrocyte Model and Numerical Analysis of Shear Flow of Blood
- Numerical Simulation of Stress Fiber Orientation in Cultured Endothelial Cells under Biaxial Cyclic Deformation Using the Strain Limit Hypothesis(Proceedings of the Switzerland-Japan Workshop on New Directions in Cellular and Tissue Biomechanics)(Special
- MR imaging of thymic epithelial tumors : correlation with World Health Organization classification
- Air Microbubbles as MR Susceptibility Contrast Agent at 1.5 Tesla
- Development of a wearable system for monitoring health condition(1E2 Human Dynamics & Stability)
- NUMERICAL SIMULATION OF MALARIA-INFECTED BLOOD FLOW USING A PARTICLE METHOD(3D2 Biorheology & Microcirculation I)
- P-04 MEASUREMENT OF MULTI-RED BLOOD CELLS INTERACTIONS IN BLOOD FLOW BY CONFOCAL MICRO-PTV
- COMPUTATIONAL STUDY OF PLATELET THROMBUS FORMATION IN A BLOOD FLOW(3D2 Biorheology & Microcirculation I)
- P-01 OBSERVATION OF THE BLOOD FLOW IN MICROCHANNEL WITH STENOSIS BY CONFOCAL-MICRO-PIV
- A Rule-Based Computational Study on the Early Progression of Intracranial Aneurysms Using Fluid-Structure Interaction: Comparison between Straight Model and Curved Model
- Simulation Study on Effects of Hematocrit on Blood Flow Properties Using Particle Method
- Relevance of ER to the Development of Endometrial Hyperplasia and Adenocarcinoma
- Effect of non-Newtonian property of blood on flow through a stenosed tube
- PROPOSAL OF MESOSCOPIC ANALYSIS METHOD OF BLOOD RHEOLOGY(3D2 Biorheology & Microcirculation I)
- Quantitative Measurements on the Human Ascending Aortic Flow Using 2D Cine Phase-Contrast Magnetic Resonance Imaging(Bioengineering)
- Computational Fluid Dynamics Study of the Effect of the Left Ventricular Flow Ejection on the Intraaortic Flow(Cardiovascular Mechanics)
- Dispersion-controlled slow light in photonic crystal waveguides
- P-15 Monitoring physical and mental workloads by a wearable computer
- B211 Velocity Measurements of Physiological Flows in Microchannels using a Confocal micro-PIV System
- Mass Transport in Pulsatile Flow through Asymmetric Stenosis
- Vortex enhancement in blood flow through stenosed and locally expanded tubes
- Effect of isokinetic resistance training under a condition of restricted blood flow with pressure
- A Parallel Numerical Method for Bio-Flow Analysis
- MEASUREMENT OF RESPIRATION BY A HYPER DIAPER WITH CONDUCTIVE RUBBER(3C1 Cardiopulmonary & Respiratory Mechanics)
- Organ-specific endoglin (CD105) expression in the angiogenesis of human cancers
- Quantitative Analysis of CUG-BP1 Binding to RNA Repeats
- Activation of Phospholipase A_2 and Acylation of Lysophospholiplds: The Major Regulators for Platelet Activating Factor Production in Rat Neutrophils^1
- CFD STUDY ON MASS TRANSPORT TO SACCULAR ANEURYSMS AT ARTERIAL BEND(1D1 Cardiovascular Mechanics I)
- A SIMULATION MODEL FOR CEREBRAL ANEURYSM GROWTH BASED ON A HEMODYNAMIC HYPOTHESIS(1E1 Computational Biomechanics)
- 2TA4-07 ダイニンの力発生に伴う構造変化(分子モーター,第47回日本生物物理学会年会)
- Effects of Pulsation and Geometry on Post-Stenotic Oscillatory Flow
- Computational Simulation of Flow in the Aortic Arch : Influence of the 3-D Distortion on Flows in the Ordinary Helix Circular Tube
- P-45 Biomedical education systems for engineers : REDEEM and ESTEEM projects
- Growth of Intracranial Aneurysms Arised from Curved Vessels under the Influence of Elevated Wall Shear Stress : A Computer Simulation Study(Bioengineering)
- A Particle Method Computer Simulation of the Blood Flow(Micro- and Nano-biomechanics)
- A Computer Simulation on the Growth of Intracranial Aneurysms Arising From a Straight Artery(Cardiovascular flow Simulation)
- Study of Primary Health Care Information System in Indonesia(Biomimetics & Innovative Design)
- Modeling of the Human Aortic Arch with Its Major Branches for Computational Fluid Dynamics Simulation of the Blood Flow(Reviewed Papers Accepted for Publication in this Special Issue)(Special Issue on Bioengineering)
- Comptational Hemodynamcs Simulation from Very Small Scale to Large Scale
- Formation of Saccular Cerebral Aneurysms May Require Proliferation of the Arterial Wall: Computational Investigation
- Backward error analysis of the AllReduce algorithm for householder QR decomposition
- Parallel Simulation of Cellular Flow in Microvessels Using a Particle Method
- Early toothless condition suppresses cell proliferation in the hippocampal dentate gyrus of SAMP8 mice
- Patient-specific Morphological and Blood Flow Analysis of Pulmonary Artery in the Case of Severe Deformations of the Lung due to Pneumothorax
- IL-17A Induces Hypo-contraction of Intestinal Smooth Muscle via Induction of iNOS in Muscularis Macrophages
- A full GPU implementation of a numerical method for simulating capsule suspensions