In this work we carry out an in vivo validation of a method for estimating blood flow rate from the peak velocity, as it is usually done in single-wire Doppler catheter measurements. This method, originally proposed in [1] stems from the application of numerical analysis of the blood flow with Computational Fluid Dynamics (CFD) techniques. It proposes a new formula linking the maximum velocity and the flow rate, which, however, has the same practical cost of classical approaches based on a priori assumptions on the velocity profile. After the first clinical observations indicating the improved accuracy in flow rate estimates introduced by the new method discussed in [2, 3], in this paper we present an ad hoc in vivo validation, as firstly suggested in [4], still confirming the reliability of the new approach.
Computational fluid dynamics-based estimation of blood flow rate in doppler analysis: In vivo validation by means of phase contrast magnetic resonance imaging / R. Ponzini, C. Vergara, G. Rizzo, A. Veneziani, A. Redaelli, A. Vanzulli, O. Parodi - In: Proceedings of the ASME[s.l] : ASME, 2009. - ISBN 9780791848913. - pp. 227-228 (( Intervento presentato al 11. convegno ASME 2009 Summer Bioengineering Conference, Part A : 17 through 21 June tenutosi a Lake Tahoe (CA; USA) nel 2009 [10.1115/SBC2009-205522].
Computational fluid dynamics-based estimation of blood flow rate in doppler analysis: In vivo validation by means of phase contrast magnetic resonance imaging
A. VanzulliPenultimo
;
2009
Abstract
In this work we carry out an in vivo validation of a method for estimating blood flow rate from the peak velocity, as it is usually done in single-wire Doppler catheter measurements. This method, originally proposed in [1] stems from the application of numerical analysis of the blood flow with Computational Fluid Dynamics (CFD) techniques. It proposes a new formula linking the maximum velocity and the flow rate, which, however, has the same practical cost of classical approaches based on a priori assumptions on the velocity profile. After the first clinical observations indicating the improved accuracy in flow rate estimates introduced by the new method discussed in [2, 3], in this paper we present an ad hoc in vivo validation, as firstly suggested in [4], still confirming the reliability of the new approach.
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