Uncertainty quantification of coupled 1D arterial blood flow and 3D tissue perfusion models using the INSIST framework
We perform uncertainty quantification on a one-dimensional arterial blood flow model and
investigate the resulting uncertainty in a coupled tissue perfusion model of the brain. The
application of interest for this study is acute ischemic stroke. The outcome of interest is infarct
volume, estimated using the change in perfusion between the healthy and occluded state
(assuming no treatment). Secondary outcomes are the uncertainty in blood flow at the
outlets of the network, which provide the boundary conditions to the pial surface of the brain …
investigate the resulting uncertainty in a coupled tissue perfusion model of the brain. The
application of interest for this study is acute ischemic stroke. The outcome of interest is infarct
volume, estimated using the change in perfusion between the healthy and occluded state
(assuming no treatment). Secondary outcomes are the uncertainty in blood flow at the
outlets of the network, which provide the boundary conditions to the pial surface of the brain …
[PDF][PDF] Uncertainty Quantification of Coupled 1D Arterial Blood Flow and 3D Tissue Perfusion Models Using the INSIST Framework
A Hoekstra - iccs-meeting.org
We perform uncertainty quantification on a one-dimensional arterial blood flow model and
investigate the resulting uncertainty in a coupled tissue perfusion model of the brain. The
application of interest for this study is acute ischemic stroke. The outcome of interest is infarct
volume, estimated using the change in perfusion between the healthy and occluded state
(assuming no treatment). Secondary outcomes are the uncertainty in blood flow at the
outlets of the network, which provide the boundary conditions to the pial surface of the brain …
investigate the resulting uncertainty in a coupled tissue perfusion model of the brain. The
application of interest for this study is acute ischemic stroke. The outcome of interest is infarct
volume, estimated using the change in perfusion between the healthy and occluded state
(assuming no treatment). Secondary outcomes are the uncertainty in blood flow at the
outlets of the network, which provide the boundary conditions to the pial surface of the brain …
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