The mechanical properties of human biological tissue vary greatly. The determination of arterial material properties should be based on experimental data, i.e. diameter, length, intramural pressure, axial force and stress-free geometry. Currently, clinical data provide only non-invasively measured pressure-diameter data for superficial arteries (e.g. common carotid and femoral artery). The lack of information forces us to take into account certain assumptions regarding the in situ configuration to estimate material properties in vivo. This paper proposes a new, non-invasive, energy-based approach for arterial material property estimation. This approach is compared with an approach proposed in the literature. For this purpose, a simplified f...
To estimate arterial stiffness, different methods based either on distensibility, pulse wave velocit...
Rupture of carotid plaques accounts for 15 to 20% of ischemic strokes. To prevent a stroke patients ...
Previously, we developed the phased tracking method [H. Kanai et al.: IEEE Trans. Ultrason. Ferroele...
The mechanical properties of human biological tissue vary greatly. The determination of arterial mat...
The mechanical properties of human biological tissue vary greatly. Hence, patient-specific material ...
The goal of this PhD was to develop a method for noninvasive estimation of arterial material propert...
Mechanical properties of the arterial walls could provide meaningful information for the diagnosis, ...
In this dissertation, a method is proposed that identifies the mechanical properties of arteries in ...
Accurate estimation of mechanical properties of the different atherosclerotic plaque constituents is...
International audienceThis paper demonstrates the feasibility of material identification and wall st...
It is important to have a well developed strain energy function in order to understand the mechanica...
Patient-specific biomechanical modelling can improve preoperative surgical planning. This requires p...
AIM: To propose a method for obtaining non-invasive highly accurate measurements of arterial diamete...
A method for identifying mechanical properties of arterial tissue in vivo is proposed in this paper ...
Arterial tissue is constantly remodeling in order to maintain homeostasis or after disease or injury...
To estimate arterial stiffness, different methods based either on distensibility, pulse wave velocit...
Rupture of carotid plaques accounts for 15 to 20% of ischemic strokes. To prevent a stroke patients ...
Previously, we developed the phased tracking method [H. Kanai et al.: IEEE Trans. Ultrason. Ferroele...
The mechanical properties of human biological tissue vary greatly. The determination of arterial mat...
The mechanical properties of human biological tissue vary greatly. Hence, patient-specific material ...
The goal of this PhD was to develop a method for noninvasive estimation of arterial material propert...
Mechanical properties of the arterial walls could provide meaningful information for the diagnosis, ...
In this dissertation, a method is proposed that identifies the mechanical properties of arteries in ...
Accurate estimation of mechanical properties of the different atherosclerotic plaque constituents is...
International audienceThis paper demonstrates the feasibility of material identification and wall st...
It is important to have a well developed strain energy function in order to understand the mechanica...
Patient-specific biomechanical modelling can improve preoperative surgical planning. This requires p...
AIM: To propose a method for obtaining non-invasive highly accurate measurements of arterial diamete...
A method for identifying mechanical properties of arterial tissue in vivo is proposed in this paper ...
Arterial tissue is constantly remodeling in order to maintain homeostasis or after disease or injury...
To estimate arterial stiffness, different methods based either on distensibility, pulse wave velocit...
Rupture of carotid plaques accounts for 15 to 20% of ischemic strokes. To prevent a stroke patients ...
Previously, we developed the phased tracking method [H. Kanai et al.: IEEE Trans. Ultrason. Ferroele...