Quantitative Evaluation of Left Ventricular Wall Motion in Patient with Coronary Artery Bypass Grafting Using Magnetic Resonance Tagging Technique
スポンサーリンク
概要
- 論文の詳細を見る
Left ventricular wall motions during systole were investigated from a mechanical perspective by using a magnetic resonance tagging technique. Subjects were 7 patients with coronary artery bypass grafting (CABG). First, by analyzing strain in the left ventricular wall, cardiac contractility was evaluated in the patients with CABG. Next, by calculating displacement in the myocardial wall, paradoxical movements following CABG were quantitatively evaluated. Strain analysis showed local decreases in circumferential strain in 4 of 7 subjects. The results of displacement analysis clarified that following CABG, the degree of radial displacement was small in the septal wall and large in the lateral wall, and circumferential displacement towards the septal wall occurred in the anterior and posterior walls. Since this behavior was seen in both reduced and normal cardiac contractility groups, paradoxical movements in the present patients were not caused by reduced cardiac contractility, but rather by rigid-body motion of the entire heart.
- 一般社団法人日本機械学会の論文
- 2006-10-15
著者
-
INABA Tadashi
Department of Mechanical Engineering, Faculty of Engineering, Mie University
-
Inaba T
Department Of Mechanical Engineering Mie University
-
Inaba Tadashi
Department Of Mechanical Engineering Mie University
-
Tokuda Masataka
Graduate School Of Engineering Mie University
-
Nakano Takahiro
Graduate School Of Life Science And Systems Engineering Kyushu Institute Of Technology
-
Nakano Takahiro
Graduate School Of Engineering Mie University
-
Tsutsumi Masakazu
Graduate School Of Engineering Mie University
-
KAWASAKI Shingo
School of Medicine, Gifu University
-
KINOSADA Yasutomi
Matsushita Memorial Hospital
-
Kawasaki Shingo
School Of Medicine Gifu University
関連論文
- Superelastic Property of Ti-Ni Alloy Produced by Casting After SHS
- Effects of barium concentration on the radiopacity and biomechanics of bone cement : experimental study
- Quantitative Evaluation of Left Ventricular Wall Motion in Patient with Coronary Artery Bypass Grafting Using Magnetic Resonance Tagging Technique
- Mechanical Evaluation of Cardiac Contractility in Left Ventricle with Disease Using Magnetic Resonance Tagging Technique
- Stress-Strain Analysis on Ejection Period at Time Phase of Left Ventricular Wall by Optical Flow
- Two-Dimensional Deformation Analysis of Human Left Ventricle during Ejection Period Using Magnetic Resonance Tagging Technique
- Equivalent Cross-Relaxation Rate in Magnetic Resonance Imaging. A Novel Physical Parameter for Evaluation of Conditions of Water in Synthetic Copolymer Gels
- Saturation Transfer Ratio in Magnetic Resonance Imaging. A Novel Physical Parameter for Evaluation of the Hydrophilicity of Synthetic Copolymer Gels
- Tissue characterization by magnetization transfer ratio -Evaluate of the MTRs in breast tunors, globus pallidus and nasopharyngeal tumors-
- Changes in water content of intervertebral discs and paravertebral muscles before and after bed rest
- A Simple Measuring Instrument of Intraoperative Lumbar Spinal Instability(Spine Mechanics)
- A Continuous Valued Neural Network with a New Evaluation Function of Degree of Unsatisfaction for Solving CSP(Biocybernetics, Neurocomputing)
- Magnetization transfer ratios of musculoskeletal tumors
- Lagrange Neural Network for Solving Constraint Satisfaction Problem