I E Vignon-Clementel
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Explore the profile of I E Vignon-Clementel including associated specialties, affiliations and a list of published articles.
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8
Citations
443
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Recent Articles
1.
Caiazzo A, Guibert R, Vignon-Clementel I
Comput Methods Biomech Biomed Engin
. 2016 Jan;
19(12):1314-8.
PMID: 26738807
A computational approach is proposed for efficient design study of a reducer stent to be percutaneously implanted in enlarged right ventricular outflow tracts (RVOT). The need for such a device...
2.
Schiavazzi D, Arbia G, Baker C, Hlavacek A, Hsia T, Marsden A, et al.
Int J Numer Method Biomed Eng
. 2015 Jul;
32(3):e02737.
PMID: 26217878
The adoption of simulation tools to predict surgical outcomes is increasingly leading to questions about the variability of these predictions in the presence of uncertainty associated with the input clinical...
3.
Pant S, Fabreges B, Gerbeau J, Vignon-Clementel I
Int J Numer Method Biomed Eng
. 2014 Oct;
30(12):1614-48.
PMID: 25345820
A new framework for estimation of lumped (for instance, Windkessel) model parameters from uncertain clinical measurements is presented. The ultimate aim is to perform patient-specific haemodynamic analysis. This framework is...
4.
Troianowski G, Taylor C, Feinstein J, Vignon-Clementel I
J Biomech Eng
. 2011 Dec;
133(11):111006.
PMID: 22168738
While many congenital heart defects can be treated without significant long term sequelae, some achieve successful palliation as their definitive endpoints. The single-ventricle defect is one such defect and leaves...
5.
Baretta A, Corsini C, Yang W, Vignon-Clementel I, Marsden A, Feinstein J, et al.
Philos Trans A Math Phys Eng Sci
. 2011 Oct;
369(1954):4316-30.
PMID: 21969678
The objective of this work is to perform a virtual planning of surgical repairs in patients with congenital heart diseases--to test the predictive capability of a closed-loop multi-scale model. As...
6.
Kim H, Vignon-Clementel I, Coogan J, Figueroa C, Jansen K, Taylor C
Ann Biomed Eng
. 2010 Jun;
38(10):3195-209.
PMID: 20559732
Coronary flow is different from the flow in other parts of the arterial system because it is influenced by the contraction and relaxation of the heart. To model coronary flow...
7.
Vignon-Clementel I, Figueroa C, Jansen K, Taylor C
Comput Methods Biomech Biomed Engin
. 2010 Feb;
13(5):625-40.
PMID: 20140798
The simulation of blood flow and pressure in arteries requires outflow boundary conditions that incorporate models of downstream domains. We previously described a coupled multidomain method to couple analytical models...
8.
Kim H, Vignon-Clementel I, Figueroa C, LaDisa J, Jansen K, Feinstein J, et al.
Ann Biomed Eng
. 2009 Jul;
37(11):2153-69.
PMID: 19609676
Aortic flow and pressure result from the interactions between the heart and arterial system. In this work, we considered these interactions by utilizing a lumped parameter heart model as an...