The Purkinje network is responsible for the fast and coordinated distribution of the electrical impulse in the ventricle that triggers its contraction. Therefore, it is necessary to model its presence to obtain an accurate patient-specific model of the ventricular electrical activation. In this paper, we present an efficient algorithm for the generation of a patient-specific Purkinje network, driven by measures of the electrical activation acquired on the endocardium. The proposed method provides a correction of an initial network, generated by means of a fractal law, and it is based on the solution of Eikonal problems both in the muscle and in the Purkinje network. We present several numerical results both in an ideal geometry with synthetic data and in a real geometry with patient-specific clinical measures. These results highlight an improvement of the accuracy of the patient-specific Purkinje network with respect to the initial one, also in the cases of a cross-validation test and of noisy data.

Palamara, Simone, VERGARA, Christian, Faggiano, Elena, Nobile, Fabio, (2013). An effective algorithm for the generation of patient-specific Purkinje networks in computational electrocardiology n. 3/MS – 2013). Bergamo: Retrieved from https://hdl.handle.net/10446/29173

An effective algorithm for the generation of patient-specific Purkinje networks in computational electrocardiology

VERGARA, Christian;
2013-01-01

Abstract

The Purkinje network is responsible for the fast and coordinated distribution of the electrical impulse in the ventricle that triggers its contraction. Therefore, it is necessary to model its presence to obtain an accurate patient-specific model of the ventricular electrical activation. In this paper, we present an efficient algorithm for the generation of a patient-specific Purkinje network, driven by measures of the electrical activation acquired on the endocardium. The proposed method provides a correction of an initial network, generated by means of a fractal law, and it is based on the solution of Eikonal problems both in the muscle and in the Purkinje network. We present several numerical results both in an ideal geometry with synthetic data and in a real geometry with patient-specific clinical measures. These results highlight an improvement of the accuracy of the patient-specific Purkinje network with respect to the initial one, also in the cases of a cross-validation test and of noisy data.
2013
Palamara, Simone; Vergara, Christian; Faggiano, Elena; Nobile, Fabio
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10446/29173
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