A common problem in the elaboration of biomechanical models is determining the properties and characteristics (measures) of the physical behavior of in vivo tissues in the human body. Correct estimates must be made of the tissue’s physical properties and its surroundings. We suggest a method to compute the constitutive modeling of venous tissue, for every specific patient, from clini-cally registered ultrasounds images. The vein is modeled as a hyperelastic, incompressible, thin-walled cylinder and the mem-brane stresses are computed using strain energy. The approach is based on a strain-energy function suggested by Holzapfel captur-ing the characteristic nonlinear anisotropic responses of femoral veins with its collagen fibers. [DOI: 10.11...
Identification of a Strain Energy Function (SEF) is used when describing the complex mechanical prop...
An idealized model of an arterial wall is proposed as a two-layer system. Distinct mechanical respon...
AbstractObjectiveTo evaluate the relationship between the biomechanical properties and the structure...
This study suggests a method for computing the constitutive model for veins in vivo from clinically ...
International audienceThis paper demonstrates the feasibility of material identification and wall st...
Ultrasonography for the noninvasive assessment of tissue properties has enjoyed widespread success. ...
International audienceA patient-specific finite-element (FE) model of the human leg is developed to ...
The mechanical properties of human biological tissue vary greatly. Hence, patient-specific material ...
The mechanical properties of human biological tissue vary greatly. The determination of arterial mat...
BackgroundFor mechanical modeling, in vivo data are relatively incomplete in comparison to in vitro ...
A fundamental understanding of the mechanical properties of the extracellular matrix (ECM) is critic...
In this dissertation, a method is proposed that identifies the mechanical properties of arteries in ...
Cardiovascular diseases are one of the most common causes of mortality in developed countries. Coron...
International audienceIn the present study, the biomechanical response of soft tissues from the fasc...
Mechanical properties of the arterial walls could provide meaningful information for the diagnosis, ...
Identification of a Strain Energy Function (SEF) is used when describing the complex mechanical prop...
An idealized model of an arterial wall is proposed as a two-layer system. Distinct mechanical respon...
AbstractObjectiveTo evaluate the relationship between the biomechanical properties and the structure...
This study suggests a method for computing the constitutive model for veins in vivo from clinically ...
International audienceThis paper demonstrates the feasibility of material identification and wall st...
Ultrasonography for the noninvasive assessment of tissue properties has enjoyed widespread success. ...
International audienceA patient-specific finite-element (FE) model of the human leg is developed to ...
The mechanical properties of human biological tissue vary greatly. Hence, patient-specific material ...
The mechanical properties of human biological tissue vary greatly. The determination of arterial mat...
BackgroundFor mechanical modeling, in vivo data are relatively incomplete in comparison to in vitro ...
A fundamental understanding of the mechanical properties of the extracellular matrix (ECM) is critic...
In this dissertation, a method is proposed that identifies the mechanical properties of arteries in ...
Cardiovascular diseases are one of the most common causes of mortality in developed countries. Coron...
International audienceIn the present study, the biomechanical response of soft tissues from the fasc...
Mechanical properties of the arterial walls could provide meaningful information for the diagnosis, ...
Identification of a Strain Energy Function (SEF) is used when describing the complex mechanical prop...
An idealized model of an arterial wall is proposed as a two-layer system. Distinct mechanical respon...
AbstractObjectiveTo evaluate the relationship between the biomechanical properties and the structure...