Finite Element Analysis of Ventricular Wall Motion and Intra-Ventricular Blood Flow in Heart with Myocardial Infarction(<Special Issue>Bioengineering)

スポンサーリンク

概要

• 論文の詳細を見る

• To study the wall motion abnormality and characteristic flow distribution observed in the heart with myocardial infarction, we modified our finite element model of left ventricle and performed simulations at two different phases after the onset of the disease by applying characteristic material property to the infarcted region. The model could not only reproduce the hemodynamic change in myocardial infarction but also give mechanistic insight into the following complicating problems. 1) Stagnation of blood as the cause of clot formation 2) Extra energy wasted for the stretch of infarcted tissue. The effect of compensatory enhancement of the force generation in normal myocardial tissue is also discussed.

• 社団法人日本機械学会の論文
• 2004-12-15

著者

• 杉浦 清了

  東京大学大学院新領域創成科学研究科

• Sugiura Seiryo

  Graduate School of Frontier Sciences, The University of Tokyo

• Hisada Toshiaki

  Graduate School of Frontier Sciences, The University of Tokyo

• Watanabe Hiroshi

  Graduate School of Frontier Sciences, The University of Tokyo

• SUGANO Takeshi

  Former Graduate Student of Graduate School of Frontier Sciences, The University of Tokyo

• Sugano Takeshi

  Former Graduate Student Of Graduate School Of Frontier Sciences The University Of Tokyo

• Sugiura Seiryou

  The Department Of Human Environmental Studies The University Of Tokyo

• Sugiura Seiryou

  東京大学 循環器内科

• Sugiura Seiryo

  Department Of Cardiovascular Medicine University Of Tokyo Graduate School Of Medicine

• Hisada Toshiaki

  Graduate School Of Frontier Sciences The University Of Tokyo

• Hisada Toshiaki

  Institute Of Environmental Studies Graduate School Of Frontier Science The University Of Tokyo

• Watanabe Hiroshi

  Super-fine Sr Lithography Laboratory Association Of Super-advanced Electronics Technologies(aset) At

• Hisada T

  Graduate School Of Frontier Sciences The University Of Tokyo

• Sugiura Seiryo

  Graduate School Of Frontier Sciences The University Of Tokyo

• Hisada Toshiaki

  Graduate School Of Engineering University Of Tokyo

• Sugiura Seryo

  The Second Department Of Lnternal Medicine Faculty Of Medicine University Of Tokyo

• WATANABE Hiroshi

  Graduate School of Electrical and Electronic Engineering and Venture Business Laboratory, Chiba University

関連論文

• P234 p27^による平滑筋細胞増殖の制御 : マウス大腿動脈の新生内膜形成過程における細胞周期調節遺伝子発現様式の検討
• P224 再現性良好な,新しいマウス血管傷害モデルの開発
• P035 ワイヤーによるマウス大腿動脈の拡張は, 急性期ならびに慢性期における平滑筋細胞のアポトーシスを誘発する
• 0693 アドレノメジュリンは、一酸化窒素を介して、血管内皮細胞のアポトーシスを抑制する
• 0427 グラフト血管内皮におけるFasリガンドの増強発現は炎症細胞浸潤と移植後動脈硬化症を抑制する
• 0425 内皮Fasリガンドによる, 血管の負のリモデリングの制御 : マウス総頚動脈結紮モデルを用いての検討
• 0424 シクロスポリンAとFK506は血管内皮細胞上のFasリガンド発現を抑制する
• 0384 膜結合型Fasリガンドは, 血管平滑筋細胞に選択的にアポトーシスを誘導する : Fas受容体を標的とした増殖性動脈疾患に対する遺伝子治療の可能性
• 脂肪細胞における Glucose Transporter 4 の細胞膜融合と表層アクチンリモデリングの関与
• GLUT4の細胞内挙動および細胞骨格の関与についての解析
• Slowly Developing Heart Failure Associated With Hormonal Disorder
• 0638 高コレステロール血症(TC)患者における冠血流予備能(CFR)低下に対する薬物治療効果 : シンバスタチン(SVT)とプラバスタチン(PVT)との比較検討
• 新しい血管の診断治療法(新しい血管の診断治療法)
• 実用化を目指す心臓シミュレーターUT Heart
• 大動脈有限要素モデルによる異方性超弾性構成式の検討
• マルチスケール・マルチフィジックス心臓シミュレータ
• 2310 大動脈解離の成因に関する力学的検討(OS23.生命体統合シミュレーション(2),ポスターセッションP-2)
• 2 医療・創薬のためのマルチスケール・マルチフィジクス心臓シミュレータ(次世代統合シミュレーション技術)
• コンピュータシミュレーション
• 133 多孔質超弾性理論に基づく冠循環系と左右両心室の流体構造連成解析(流体構造連成解析(2),OS17 流体構造連成解析)
• 2013 超音波ドップラー法による流体構造連成心臓シミュレータの検証(OS-20C,OS-20 流体構造連成解析)
• F07-(3) 流体構造連成有限要素法に基づくマルチスケール・マルチフジックス心臓シミュレータの開発(流体関連振動研究の新展開,先端技術フォーラム)
• 心筋梗塞における壁運動および心腔内血流の流体構造連成有限要素解析(OS20b 流体構造連成解析)
• 流体構造連成有限要素法に基づくマルチスケール・マルチフィジックス心臓シミュレータの開発(力学シミュレーション技術,生体医工学における力学シミュレーション)
• 148 左心室ポンプ機能と心室壁繊維方向に関する検討
• Adipose Tissue Remodeling and Malfunctioning in Obesity Revealed by in vivo Molecular Imaging
• 機械的伸展に対する心筋組織の膜電位応答とその数理モデルによる不整脈シミュレーション
• 混合体理論に基づく冠循環数理モデルの定式化
• 826 混合体理論に基づく冠循環モデルの理論構築(J05-2 生命体統合シミュレーション(2),ジョイントセッション,21世紀地球環境革命の機械工学:人・マイクロナノ・エネルギー・環境)
• 計算科学が解き明かす大動脈基部のメカニクス--シミュレーションによる生体機能の解析 (第1土曜特集 大動脈瘤--基礎と臨床) -- (基礎)
• 2309 ヒト心臓の僧帽弁開閉シミュレーション(OS23.生命体統合シミュレーション(2),ポスターセッションP-2)
• AFM・CLSM重ね合わせによる心筋細胞のT管構造の可視化
• ここまできたコンピュータシミュレーション, マルチスケール心臓シミュレータ
• 1 Multi-physics, Multi-scale Simulator for Heart Research : Integration of Knowledge on Molecular Dynamics to Solve the Clinical Problems("State of the Art" Biomedical Technology Developed in Japan Will Inspire Intricate Applications in Cardiology in the
• Finite Element Analysis of Ventricular Wall Motion and Intra-Ventricular Blood Flow in Heart with Myocardial Infarction(Bioengineering)
• 心筋細胞のCa^wave伝播と収縮のマルチフィジックス有限要素解析(OS16c 生体力学における新しい計算解析手法)
• 1 Multi-physics, Multi-scale Simulator for Heart Research : Integration of Knowledge on Molecular Dynamics to Solve the Clinical Problems("State of the Art" Biomedical Technology Developed in Japan Will Inspire Intricate Applications in Cardiology in the
• Finite Element Analysis on the Relationship between Left Ventricular Pump Function and Fiber Structure within the Wall(Bioengineering)
• 709 心臓のマルチスケール・マルチフィジックスシミュレーション
• 計算生体力学と医療 (特集 医工連携の展望) -- (システム生理学の展開)
• Computer Simulation of Blood Flow, Left Ventricular Wall Motion and Their Interrelationship by Fluid-Structure Interaction Finite Element Method(Reviewed Papers Accepted for Publication in this Special Issue)(Special Issue on Bioengineering)
• 2335 均質化法に基づく心筋の有限要素解析
• 1 Multi-physics, Multi-scale Simulator for Heart Research : Integration of Knowledge on Molecular Dynamics to Solve the Clinical Problems("State of the Art" Biomedical Technology Developed in Japan Will Inspire Intricate Applications in Cardiology in the
• 1 Multi-physics, Multi-scale Simulator for Heart Research : Integration of Knowledge on Molecular Dynamics to Solve the Clinical Problems("State of the Art" Biomedical Technology Developed in Japan Will Inspire Intricate Applications in Cardiology in the
• 1 Multi-physics, Multi-scale Simulator for Heart Research : Integration of Knowledge on Molecular Dynamics to Solve the Clinical Problems("State of the Art" Biomedical Technology Developed in Japan Will Inspire Intricate Applications in Cardiology in the
• 力学・電気化学効果を考慮した心筋細胞モデル化に関する検討
• IS048 Depressed sliding velocity of ventricular myosin from hypertrophic obstructive cardiomyopathy hearts expressing atrial essential light chain isoform
• Natural Gas Decompression Behavior in High Pressure Pipelines
• PE-467 Virtual Echocardiography : A Realistic 3D Model of Blood Flow and Ventricular Wall Motion(Cardiac Function, Basic/Clinical 3 (M) : PE79)(Poster Session (English))
• Load dependence of calcium transient of a single cardiac myocyte revealed by a novel force-calcium measurement system
• IS177 The Effect of Inhaled Nitric Oxide on Gas Exchange in Patients With Congestive Heart Failure
• IS073 Inhaled nitric oxide increases exercise capacity in patients with congestive heart failure
• Effect of a Calcium Sensitizer (MCI-154) on the Movement of Reconstituted Thin Filament in Vitro
• Coupling Between Actomyosin ATPase Cycle and Creatine Kinase Cycle Facilitates the Actomyosin Sliding in Vitro
• PJ-601 Optical Mapping of Stretch Induced Ectopic Excitation and Spatial Strain Heterogeneity(Arrhythmia, basic-5 (A) PJ101,Poster Session (Japanese),The 70th Anniversary Annual Scientific Meeting of the Japanese Circulation Society)
• OE-239 The Effects of Wall Stress on the Dynamics of Ventricular Fibrillation : A Simulation Study Using a Dynamic Mechano-Electric Coupling Model(Arrhythmia, basic-1 (A) OE40,Oral Presentation (English),The 70th Anniversary Annual Scientific Meeting of t
• OE-202 Chronic Inflammation, Macrophage Recruitment and CD8+ T Cell Activation in Obese Adipose Tissue Visualized by in vivo Molecular Imaging(OE35,Metabolic Syndrome (H),Oral Presentation (English),The 73rd Annual Scientific Meeting of The Japanese Circu
• OE-013 Platelet Kinetics in Thrombus Formation, and Inflammatory Status Revealed by in Vivo Molecular Imaging(OE03,Thromboembolism/Antithrombotic Therapy/Thrombolysis (IHD),Oral Presentation (English),The 73rd Annual Scientific Meeting of The Japanese Cir
• FRS-022 Adipogenesis in Obesity Requires Interplay between Differentiating Adipocytes, Stromal Cells and Blood Vessels(Diabetes/Obesity (basic), The 71st Annual Scientific Meeting of the Japanese Circulation Society)
• Myosin light chain isoforms modelate motor function of cardiac myosin by altering crossbridge kinetics
• Protein Kinase A Increases the Rate of Relaxation but Not the Rate of Tension Development in Skinned Rat Cardiac Muscle
• 微小計測システムを用いた心筋細胞のマイクロバイオメカニクス測定
• 2P-218 ロドプシンにおける相乗的な長距離相互作用による吸収波長制御機構(光生物-視覚・光受容,第47回日本生物物理学会年会)
• 2TA2-06 ロドプシンにおける相乗的な長距離相互作用による吸収波長制御機構(光生物-視覚・光受容,第47回日本生物物理学会年会)
• PE-180 Insulin Regulates Glucose Uptake in Adipocytes through Cortical Actin Remodeling and Activating Fusion Process of GLUT4 Vesicles with Plasma Membrane(Diabetes/Obesity/Metabolic syndrome(05)(H),Poster Session(English),The 72nd Annual Scientific Meet
• OE-137 Simultaneous imaging of Ca2+ signal and t-tubule structure during contraction of cardiomyocytes for the study of local excitation-contraction coupling(Cardiac function, basic/clinical(01)(M),Oral Presentation(English),The 72nd Annual Scientific Mee
• OE-134 Responses of Single Ventricular Myocytes to Dynamic Axial Stretching(Cardiac function, basic/clinical(01)(M),Oral Presentation(English),The 72nd Annual Scientific Meeting of the Japanese Circulation Society)
• OE-097 Local Cell Dynamics and Vascular Malfunction in Obese Adipose Tissue Inflammation(Diabetes/Obesity/Metabolic syndrome(01)(H),Oral Presentation(English),The 72nd Annual Scientific Meeting of the Japanese Circulation Society)
• FRS-113 T-tubule System is a Major Supporting Structure Against the Transverse Mechanical Stress in Cardiac Myocytes(New Concepts for Assessing Cardiac Function(M),Featured Research Session,The 72nd Annual Scientific Meeting of the Japanese Circulation So
• FRS-056 Adipogenesis and Angiogenesis in Obesity Requires Close Interplay Between Diffentiating Adipocytes, Macrophages, and Endothelial Cells(New Insights into Metabolic Syndrome(02)(H),Featured Research Session,The 72nd Annual Scientific Meeting of the
• PE-416 Analysis of GLUT4 Translocation and Cortical Actin Remodeling in Adipocytes by Live-cell Imaging Provided Clues to Treatment for Insulin Resistance(Diabetes/Obesity/Metabolic syndrome-06, The 71st Annual Scientific Meeting of the Japanese Circulati
• OE-120 Close Relationships between Angiogenesis and Adipogenesis in Obesity Revealed by a Novel Visualization Technique of Living Adipose Tissue(Diabetes/Obesity/Metabolic syndrome-1 (H) OE20,Oral Presentation (English),The 70th Anniversary Annual Scienti
• Contractile Dysfunction of the Cardiomyopathic Hamster (BIO-TO2 Strain) Myocytes in Pronounced under High Load Conditions(Cardiac Function, Basic/Clinical 4 (M), The 69th Annual Scientific Meeting of the Japanese Circulation Society)
• Microtubules Modulate the Mechanical Property of Isolated Rat Cardiomyocytes Only against the Shear Stress in Long Axis Direction(Cardiac Function, Basic/Clinical 4 (M), The 69th Annual Scientific Meeting of the Japanese Circulation Society)
• Measurement of Transverse Stiffness during Contraction and Relaxation of a Single Cardiomyocyte(Cardiac Function, Basic/Clinical 3 (M), The 69th Annual Scientific Meeting of the Japanese Circulation Society)
• Carbocyl-terminal Fragment of Myosin Light Chain Kinase Increases Actin Translocation Velocity without Altering ATPase Activity or Unltary Displacement(Cardiac Function, Basic/Clinical 3 (M), The 69th Annual Scientific Meeting of the Japanese Circulation
• Myosin Subfragment-2 (S-2) is Important for the Motor Function of the Molecule(Cardiac Function, Basic/Clinical 3 (M), The 69th Annual Scientific Meeting of the Japanese Circulation Society)
• OE-197 Single Cell Mechanics of Cardiomyocytes under Isometric, Unloaded and Physiologically Loaded Conditions(Cardiac Function, Basic/Clinical 1 (M) : OE24)(Oral Presentation (English))
• Cardiomyocyte Has Dynamic Potential to Adjust Its Shape to the Mechanical Environment
• Sensitivity Analysis for Thermal Stress and Creep Problems
• Finite Element Analysis for Large Deformation Frictional Contact Problems with Finite Sliding
• Fabrication and wear properties of TiN nanoparticle-dispersed Si_3N_4 ceramics(SiAlons and Non-oxides)
• Development of Sensitivity Analysis Code for Elastic-Plastic Dynamic Response of Piping Systems
• AUTOMATIC SCALE DETECTION BASED ON DIFFERENCE OF CURVATURE(International Workshop on Advanced Image Technology 2009)
• Finite Element Analysis of Internal Fixation for Sacroiliac Joint in Pelvic Fractures
• Finite Element Analysis for Pelvic Fractures
• Anatomically correct reduction and fixation of a Tile C-1 type unilateral sacroiliac disruption using a rod and pedicle screw system between the S1 vertebra and the ilium : experimental and clinical case report
• 2P307 Theoretical study on the conformational change from theneutral form to the acid blue form of bacteriorhodopsin(41. Proton and ion pumping,Poster Session,Abstract,Meeting Program of EABS & BSJ 2006)
• 2P338 Energy transfer pathways in photosensory protein(42. Sensory signal transduction,Poster Session,Abstract,Meeting Program of EABS & BSJ 2006)
• A Homogenization Method for Nearly Incompressible Materials by Using Characteristic Deformation Mode Superposition
• 801 階層型多相混合体冠循環モデルに関する検討(OS24.一般セッション(1) 心臓-循環器系生体解析,オーガナイズドセッション)
• BS-15-3 SPORT: Extended Simulations and Results for Divisible Load Scheduling on Heterogeneous Systems(BS-15.Network Planning, Control, and Management,ENGLISH SESSION)
• BS-9-4 SPORT : A Near-Optimal Solution to Divisible Load Scheduling on Heterogeneous Systems(BS-9. Latest Trends on Information Networking Technologies)
• Fractional-pixel Position Prediction Techniques Based on Bezier Curve for H.264/AVC Encoder
• マルチスケール・マルチフィジックス心臓シミュレータUT-Heart(社会に貢献するシミュレーション)
• 三相理論を用いた心筋細胞の電気化学・力学連成シミュレーションの大規模化に関する検討
• マルチスケール・マルチフィジックス心臓シミュレータUT-Heart(プレナリー・スピーカー)
• J022042 呼吸に伴う胸郭変形シミュレーション手法の開発([J02204]診療技術と臨床バイオメカニクス(4))
• Effects of an hERG Activator, ICA-105574, on Electrophysiological Properties of Canine Hearts

もっと見る 閉じる

スポンサーリンク