Add to ORKGWe therefore hypothesize that fiber reorientation could be a local adaptive mechanism by which the strain distribution across the cardiac wall is homogenized. To test this hypothesis we measured fiber orientation in normal goat hearts and in goat hearts in which the mechanical load was locally distributed of an infarction. Diffusion Tensor Imaging was used to measure fiber orientation in voxels of 0.4 x 0.4 x 3.0 mm3. Preliminary results of measurements after 10 weeks infarction reveal a disturbance of this characteristic pattern. [In English
Global pattern of myocardial fiber and sheet architecture was studied on a cow heart using diffusion...
The cardiac muscle architecture lies at the basis of the mechanical and electrical properties of the...
In this study an equine heart of a 13-year-old Belgian Warmblood is scanned using diffusion tensor m...
We therefore hypothesize that fiber reorientation could be a local adaptive mechanism by which the s...
Cardiac myofiber orientation is a crucial determinant of the distribution of myocardial wall stress....
Abstract. The fiber orientation in the heart could influence both its mechanical and electrical oper...
Cardiac fiber direction is an important factor determining the propagation of electrical activity, a...
The ventricular myocardium is known to exhibit a complex spatial organization, with fiber orientatio...
PurposeTo evaluate the importance of strain-correcting stimulated echo acquisition mode echo-planar ...
Abstract. Detailed descriptions of cardiac geometry and architecture are necessary for examining and...
International audiencei) A dual-layer organization of fiber orientation in the intraventricular was ...
SUMMARY. Myocardial fiber orientation undergoes an orderly transition from the epicardium to the end...
Cardiac fiber orientation is one of the main determinants of fiber stress and strain during ejection...
This study aimed to investigate postinfarct left ventricular (LV) fiber structural alterations by ex...
This study aimed to investigate postinfarct left ventricular (LV) fiber structural alterations by ex...
Global pattern of myocardial fiber and sheet architecture was studied on a cow heart using diffusion...
The cardiac muscle architecture lies at the basis of the mechanical and electrical properties of the...
In this study an equine heart of a 13-year-old Belgian Warmblood is scanned using diffusion tensor m...
We therefore hypothesize that fiber reorientation could be a local adaptive mechanism by which the s...
Cardiac myofiber orientation is a crucial determinant of the distribution of myocardial wall stress....
Abstract. The fiber orientation in the heart could influence both its mechanical and electrical oper...
Cardiac fiber direction is an important factor determining the propagation of electrical activity, a...
The ventricular myocardium is known to exhibit a complex spatial organization, with fiber orientatio...
PurposeTo evaluate the importance of strain-correcting stimulated echo acquisition mode echo-planar ...
Abstract. Detailed descriptions of cardiac geometry and architecture are necessary for examining and...
International audiencei) A dual-layer organization of fiber orientation in the intraventricular was ...
SUMMARY. Myocardial fiber orientation undergoes an orderly transition from the epicardium to the end...
Cardiac fiber orientation is one of the main determinants of fiber stress and strain during ejection...
This study aimed to investigate postinfarct left ventricular (LV) fiber structural alterations by ex...
This study aimed to investigate postinfarct left ventricular (LV) fiber structural alterations by ex...
Global pattern of myocardial fiber and sheet architecture was studied on a cow heart using diffusion...
The cardiac muscle architecture lies at the basis of the mechanical and electrical properties of the...
In this study an equine heart of a 13-year-old Belgian Warmblood is scanned using diffusion tensor m...