Quantification of the uncertainty in constitutive model predictions describing arterial wall mechanics is vital towards non-invasive assessment of vascular drug therapies. Therefore, we perform uncertainty quantification to determine uncertainty in mechanical characteristics describing the vessel wall response upon loading. Furthermore, a global variance-based sensitivity analysis is performed to pinpoint measurements that are most rewarding to be measured more precisely. We used previously published carotid diameter-pressure and intima-media thickness (IMT) data (measured in triplicate), and Holzapfel-Gasser-Ogden models. A virtual data set containing 5000 diastolic and systolic diameter-pressure points, and IMT values was generated by add...
Cardiovascular disease is one of the major problems in today’s medicine and the number of patients i...
Clinical assessment of arterial stiffness relies on noninvasive measurements of regional pulse wave ...
Clinical assessment of arterial stiffness relies on noninvasive measurements of regional pulse wave ...
Quantification of the uncertainty in constitutive model predictions describing arterial wall mechani...
This work aims at identifying and quantifying uncertainties related to elastic and viscoelastic para...
Mathematical modelling and numerical simulation of human cardiovascular system have undergone a vast...
International audienceThis paper demonstrates the feasibility of material identification and wall st...
To perform realistic finite element simulations of cardiovascular surgical procedures (such as ballo...
In computational cardiovascular models, parameters are one of major sources of uncertainty, which ma...
As we shift from population-based medicine towards a more precise patient-specific regime guided by ...
International audienceThe importance of the study of the blood flow equations is widely recognized a...
The mechanical properties of human biological tissue vary greatly. Hence, patient-specific material ...
Wave propagation models of blood flow and blood pressure in arteries play an important role in cardi...
BackgroundFor mechanical modeling, in vivo data are relatively incomplete in comparison to in vitro ...
The theme of the thesis is 'arterial mechanics' incorporating blood flow, wall dynamics and wall st...
Cardiovascular disease is one of the major problems in today’s medicine and the number of patients i...
Clinical assessment of arterial stiffness relies on noninvasive measurements of regional pulse wave ...
Clinical assessment of arterial stiffness relies on noninvasive measurements of regional pulse wave ...
Quantification of the uncertainty in constitutive model predictions describing arterial wall mechani...
This work aims at identifying and quantifying uncertainties related to elastic and viscoelastic para...
Mathematical modelling and numerical simulation of human cardiovascular system have undergone a vast...
International audienceThis paper demonstrates the feasibility of material identification and wall st...
To perform realistic finite element simulations of cardiovascular surgical procedures (such as ballo...
In computational cardiovascular models, parameters are one of major sources of uncertainty, which ma...
As we shift from population-based medicine towards a more precise patient-specific regime guided by ...
International audienceThe importance of the study of the blood flow equations is widely recognized a...
The mechanical properties of human biological tissue vary greatly. Hence, patient-specific material ...
Wave propagation models of blood flow and blood pressure in arteries play an important role in cardi...
BackgroundFor mechanical modeling, in vivo data are relatively incomplete in comparison to in vitro ...
The theme of the thesis is 'arterial mechanics' incorporating blood flow, wall dynamics and wall st...
Cardiovascular disease is one of the major problems in today’s medicine and the number of patients i...
Clinical assessment of arterial stiffness relies on noninvasive measurements of regional pulse wave ...
Clinical assessment of arterial stiffness relies on noninvasive measurements of regional pulse wave ...