Mechanical properties of the arterial walls could provide meaningful information for the diagnosis, management and treatment of cardiovascular diseases. Classically, various experimental approaches were conducted on dissected arterial tissues to obtain their stress–stretch relationship, which has limited value clinically. Therefore, there is a pressing need to obtain biomechanical behaviors of these vascular tissues in vivo for personalized treatment. This paper reviews the methods to quantify arterial mechanical properties in vivo. Among these methods, we emphasize a novel approach using image-based finite element models to iteratively determine the material properties of the arterial tissues. This approach has been successfully applied to...
During a cardiac cycle, the radius of an elastic artery may undergo a variationof about 10% so that ...
Background: In the context of a growing demand for the use of in silico models to meet clinical requ...
Contains fulltext : 57285.pdf (publisher's version ) (Closed access)Intravascular ...
The mechanical properties of human biological tissue vary greatly. Hence, patient-specific material ...
In this dissertation, a method is proposed that identifies the mechanical properties of arteries in ...
The mechanical properties of human biological tissue vary greatly. The determination of arterial mat...
Rupture of carotid plaques accounts for 15 to 20% of ischemic strokes. To prevent a stroke patients ...
BackgroundFor mechanical modeling, in vivo data are relatively incomplete in comparison to in vitro ...
peer reviewedThe mechanical behaviour of the arterial wall was determined theoretically utilizing so...
International audienceThis paper demonstrates the feasibility of material identification and wall st...
A method for identifying mechanical properties of arterial tissue in vivo is proposed in this paper ...
Accurate estimation of mechanical properties of the different atherosclerotic plaque constituents is...
Biomechanics of artery has been shown to play an important role in the progression of cardiovascular...
The existence of residual stresses in human arteries has long been shown experimentally. Researchers...
Biomechanical models have the potential to predict plaque rupture. For reliable models, correct mate...
During a cardiac cycle, the radius of an elastic artery may undergo a variationof about 10% so that ...
Background: In the context of a growing demand for the use of in silico models to meet clinical requ...
Contains fulltext : 57285.pdf (publisher's version ) (Closed access)Intravascular ...
The mechanical properties of human biological tissue vary greatly. Hence, patient-specific material ...
In this dissertation, a method is proposed that identifies the mechanical properties of arteries in ...
The mechanical properties of human biological tissue vary greatly. The determination of arterial mat...
Rupture of carotid plaques accounts for 15 to 20% of ischemic strokes. To prevent a stroke patients ...
BackgroundFor mechanical modeling, in vivo data are relatively incomplete in comparison to in vitro ...
peer reviewedThe mechanical behaviour of the arterial wall was determined theoretically utilizing so...
International audienceThis paper demonstrates the feasibility of material identification and wall st...
A method for identifying mechanical properties of arterial tissue in vivo is proposed in this paper ...
Accurate estimation of mechanical properties of the different atherosclerotic plaque constituents is...
Biomechanics of artery has been shown to play an important role in the progression of cardiovascular...
The existence of residual stresses in human arteries has long been shown experimentally. Researchers...
Biomechanical models have the potential to predict plaque rupture. For reliable models, correct mate...
During a cardiac cycle, the radius of an elastic artery may undergo a variationof about 10% so that ...
Background: In the context of a growing demand for the use of in silico models to meet clinical requ...
Contains fulltext : 57285.pdf (publisher's version ) (Closed access)Intravascular ...