Exploring the Use of Proper Orthogonal Decomposition for Enhancing Blood Flow Images Via Computational Fluid Dynamics

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Abstract. Obtaining high quality patient-specific flow velocity information is not an easy task. Available clinical data are usually poorly resolved and contain a significant amount of noise. We propose a novel approach to integrate computational fluid dynamics with measurement data to overcome this difficulty. By performing a proper orthogonal decomposition of simulated blood flow patterns for a given vascular location with various anatomical configurations it is possible to obtain a basis model for flow reconstruction. This is used to interpolate imaging data intelligently without having to perform a full flow simulation for each individual patient. This work focuses on assessing the feasibility of such a method.

Dominik Szczerba, Gábor Székely, Kri

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Flow Reconstruction | Medical Imaging | MICCAI 2008 | Patient-specific Flow Velocity | Simulated Blood Flow |

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Added	06 Nov 2009
Updated	06 Nov 2009
Type	Conference
Year	2008
Where	MICCAI
Authors	Dominik Szczerba, Gábor Székely, Krishnamurthy Muralidhar, Martin von Siebenthal, Robert H. P. McGregor

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Exploring the Use of Proper Orthogonal Decomposition for Enhancing Blood Flow Images Via Computational Fluid Dynamics

Flow Reconstruction | Medical Imaging | MICCAI 2008 | Patient-specific Flow Velocity | Simulated Blood Flow |

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