Add to ORKGCardiac myofiber plays an important role in stress mechanism during heart beating periods. The orientation of myofibers decides the effects of the stress distribution and the whole heart deformation. It is important to image and quantitatively extract these orientations for understanding the cardiac physiological and pathological mechanism and for diagnosis of chronic diseases. Ultrasound has been wildly used in cardiac diagnosis because of its ability of performing dynamic and noninvasive imaging and because of its low cost. An extraction method is proposed to automatically detect the cardiac myofiber orientations from high frequency ultrasound images. First, heart walls containing myofibers are imaged by B-mode high frequency (>20 MHz)...
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International audienceIntroduction: Myocardial stiffness (MS) is crucial to understand cardiac biome...
International audienceOBJECTIVE: Tissue Doppler imaging (TDI) is commonly used to evaluate regional ...
Ultrasound imaging can be used to estimate the morphology as well as the motion and deformation of t...
Echocardiography, namely cardiac ultrasound, has been the clinically predominant imaging method to e...
International audienceCardiovascular diseases and myocardium infarction are main causes of death wor...
Ultrasonic imaging is the noninvasive clinical imaging modality of choice for diagnosing heart disea...
Current ultrasound methods for measuring myocardial strain are often limited to measurements in one ...
Since cardiovascular disease is the most common cause of death in the Western countries, there is a ...
The heart is a complex organ with a high level of deformation occurring in different directions. Ult...
In this paper we are presenting a method for achieving strain analysis of cardiac tissues from 3D ul...
With ultrasound imaging, the motion and deformation of tissue can be measured. Tissue can be deforme...
In this paper, we are presenting a method for achieving strain analysis of cardiac tissues from 3D u...
The human heart has a heterogeneous structure, which is characterized by different cell types and th...
With ultrasound imaging, the motion and deformation of tissue can be measured. Tissue can be deforme...
International audienceIntroduction: Myocardial stiffness (MS) is crucial to understand cardiac biome...
International audienceOBJECTIVE: Tissue Doppler imaging (TDI) is commonly used to evaluate regional ...
Ultrasound imaging can be used to estimate the morphology as well as the motion and deformation of t...
Echocardiography, namely cardiac ultrasound, has been the clinically predominant imaging method to e...
International audienceCardiovascular diseases and myocardium infarction are main causes of death wor...
Ultrasonic imaging is the noninvasive clinical imaging modality of choice for diagnosing heart disea...
Current ultrasound methods for measuring myocardial strain are often limited to measurements in one ...
Since cardiovascular disease is the most common cause of death in the Western countries, there is a ...
The heart is a complex organ with a high level of deformation occurring in different directions. Ult...
In this paper we are presenting a method for achieving strain analysis of cardiac tissues from 3D ul...
With ultrasound imaging, the motion and deformation of tissue can be measured. Tissue can be deforme...
In this paper, we are presenting a method for achieving strain analysis of cardiac tissues from 3D u...
The human heart has a heterogeneous structure, which is characterized by different cell types and th...
With ultrasound imaging, the motion and deformation of tissue can be measured. Tissue can be deforme...
International audienceIntroduction: Myocardial stiffness (MS) is crucial to understand cardiac biome...
International audienceOBJECTIVE: Tissue Doppler imaging (TDI) is commonly used to evaluate regional ...
Ultrasound imaging can be used to estimate the morphology as well as the motion and deformation of t...
