Modeling the Purkinje conduction system with a non deterministic rule based iterative method

Viviana Zimmerman; R. Sebastian; B. H. Bijnens; A. F. Frangi

Modeling the Purkinje conduction system with a non deterministic rule based iterative method

Viviana Zimmerman^*, R. Sebastian, B. H. Bijnens, A. F. Frangi

^*Corresponding author for this work

Research output: Chapter in Book/Conference proceeding › Conference contribution › peer-review

Abstract

A method to construct a Purkinje system automatically for a particular subject is presented. The system is grown using a rule-based algorithm controlled by stochastic and probabilistic decisions that determine the particular structure of the model. A set of user customizable parameters control the final structure, and allow obtaining realistic Purkinje structures. The construction of the whole structure takes less than 30 s in a 2.4 GHz PC. The Purkinje system is built on a ventricular surface mesh previously obtained by segmentation. Geometrically, the system is modeled as a set of lines organized in a tree-like structure, so it can be included in a cardiac electrophysiological solver as a set of cables using a 1D type resolution method. The Purkinje systems obtained closely resemble real photographs and histological diagrams as for example Tawara and Myorburg ones.

Original language	English
Title of host publication	Computers in Cardiology 2009, CinC 2009
Pages	461-464
Number of pages	4
Publication status	Published - 2009
Event	36th Annual Conference of Computers in Cardiology, CinC 2009 - Park City, UT, United States Duration: 13 Sept 2009 → 16 Sept 2009

Publication series

Name	Computers in Cardiology
Volume	36
ISSN (Print)	0276-6574

Conference

Conference	36th Annual Conference of Computers in Cardiology, CinC 2009
Country/Territory	United States
City	Park City, UT
Period	13/09/09 → 16/09/09

Cite this

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title = "Modeling the Purkinje conduction system with a non deterministic rule based iterative method",

abstract = "A method to construct a Purkinje system automatically for a particular subject is presented. The system is grown using a rule-based algorithm controlled by stochastic and probabilistic decisions that determine the particular structure of the model. A set of user customizable parameters control the final structure, and allow obtaining realistic Purkinje structures. The construction of the whole structure takes less than 30 s in a 2.4 GHz PC. The Purkinje system is built on a ventricular surface mesh previously obtained by segmentation. Geometrically, the system is modeled as a set of lines organized in a tree-like structure, so it can be included in a cardiac electrophysiological solver as a set of cables using a 1D type resolution method. The Purkinje systems obtained closely resemble real photographs and histological diagrams as for example Tawara and Myorburg ones.",

author = "Viviana Zimmerman and R. Sebastian and Bijnens, {B. H.} and Frangi, {A. F.}",

year = "2009",

language = "English",

isbn = "9781424472819",

series = "Computers in Cardiology",

pages = "461--464",

booktitle = "Computers in Cardiology 2009, CinC 2009",

note = "36th Annual Conference of Computers in Cardiology, CinC 2009 ; Conference date: 13-09-2009 Through 16-09-2009",

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T1 - Modeling the Purkinje conduction system with a non deterministic rule based iterative method

AU - Zimmerman, Viviana

AU - Sebastian, R.

AU - Bijnens, B. H.

AU - Frangi, A. F.

PY - 2009

Y1 - 2009

N2 - A method to construct a Purkinje system automatically for a particular subject is presented. The system is grown using a rule-based algorithm controlled by stochastic and probabilistic decisions that determine the particular structure of the model. A set of user customizable parameters control the final structure, and allow obtaining realistic Purkinje structures. The construction of the whole structure takes less than 30 s in a 2.4 GHz PC. The Purkinje system is built on a ventricular surface mesh previously obtained by segmentation. Geometrically, the system is modeled as a set of lines organized in a tree-like structure, so it can be included in a cardiac electrophysiological solver as a set of cables using a 1D type resolution method. The Purkinje systems obtained closely resemble real photographs and histological diagrams as for example Tawara and Myorburg ones.

AB - A method to construct a Purkinje system automatically for a particular subject is presented. The system is grown using a rule-based algorithm controlled by stochastic and probabilistic decisions that determine the particular structure of the model. A set of user customizable parameters control the final structure, and allow obtaining realistic Purkinje structures. The construction of the whole structure takes less than 30 s in a 2.4 GHz PC. The Purkinje system is built on a ventricular surface mesh previously obtained by segmentation. Geometrically, the system is modeled as a set of lines organized in a tree-like structure, so it can be included in a cardiac electrophysiological solver as a set of cables using a 1D type resolution method. The Purkinje systems obtained closely resemble real photographs and histological diagrams as for example Tawara and Myorburg ones.

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M3 - Conference contribution

AN - SCOPUS:77952695561

SN - 9781424472819

T3 - Computers in Cardiology

SP - 461

EP - 464

BT - Computers in Cardiology 2009, CinC 2009

T2 - 36th Annual Conference of Computers in Cardiology, CinC 2009

Y2 - 13 September 2009 through 16 September 2009

ER -

Modeling the Purkinje conduction system with a non deterministic rule based iterative method

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