2016
DOI: 10.1109/tbme.2015.2451178
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Comparative Analysis of Different Methods of Modeling the Thermal Effect of Circulating Blood Flow During RF Cardiac Ablation

Abstract: Abstract-Goal: Our aim was to compare the different methods of modeling the effect of circulating blood flow on the thermal lesion dimensions created by radiofrequency cardiac ablation and on the maximum blood temperature. Methods: Computational models were built to study the temperature distributions and lesion dimensions created by a non-irrigated electrode by two radiofrequency energy delivery protocols (constant voltage and constant temperature) under high and low blood flow conditions. Four methods of mod… Show more

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Cited by 73 publications
(162 citation statements)
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“…Next, we examined through additional computer simulations as to how certain alterations in the spatial distribution of the 3 tissue types could influence lesion geometry. The lesion geometry was assessed by means of the 50 ºC isotherm . In comparison, we also simulated a control case in which the ventricular wall comprised exclusively viable myocardium.…”
Section: Methodsmentioning
confidence: 92%
“…Next, we examined through additional computer simulations as to how certain alterations in the spatial distribution of the 3 tissue types could influence lesion geometry. The lesion geometry was assessed by means of the 50 ºC isotherm . In comparison, we also simulated a control case in which the ventricular wall comprised exclusively viable myocardium.…”
Section: Methodsmentioning
confidence: 92%
“…The advection term in Equation (1) represents the heat loss due to blood flow. The velocity field u (m/s) is governed by the incompressible Navier-Stokes Equations [7]. At RF frequencies (≈500 kHz) and over the distance of interest, the biological medium can be considered almost totally resistive, and a quasi-static approach can therefore be used to solve the electrical problem, which allows calculating the value of q [6].…”
Section: Computational Modelingmentioning
confidence: 99%
“…We used the parameters for a Table 1. Thermal and electrical characteristics of the elements employed in the numerical models (data from [17]): σ: electric conductivity; k: thermal conductivity; ρ: density; c: specific heat. standard PI controller K p = 4.78, K i = 3.39.…”
Section: Boundary Conditionsmentioning
confidence: 99%
“…The thermal lesions are identified by the 50°C isotherm contour as in previous studies [14][15][16][17]25], which is usually considered to reasonably represent the isotherm of irreversible myocardial injury in hyperthermic ablation. The thermal lesions are determined by their characteristic dimensions (see Fig 1) [3,7,8,22,26]: maximum depth (D), maximum width (MW), depth at the maximum width (DW), and surface width (SW).…”
Section: Lesion Assessmentmentioning
confidence: 99%
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