The effects of vaporisation, condensation and diffusion of water inside the tissue during saline-infused radiofrequency ablation of the liver: A computational study

Kho, Antony; Ooi, Ean; Foo, Ji

Title: The effects of vaporisation, condensation and diffusion of water inside the tissue during saline-infused radiofrequency ablation of the liver: A computational study
Creator: Kho, Antony; Ooi, Ean; Foo, Ji; Ooi, Ean Tat
Date: 2022
Type: Text; Journal article
Identifier: http://researchonline.federation.edu.au/vital/access/HandleResolver/1959.17/190864
Identifier: vital:17700
Identifier: https://doi.org/10.1016/j.ijheatmasstransfer.2022.123062
Identifier: ISSN:0017-9310
Abstract: •Effect of vaporisation, condensation & diffusion on saline-infused RFA was studied.•Condensation significantly affects the prediction of the RFA treatment outcome.•Water diffusion is insignificant when compared to condensation.•The model serves as benchmark for the accurate modelling of saline-infused RFA. [Display omitted] Saline-infused radiofrequency ablation (RFA) is a thermal ablation technique that combines saline infusion and Joule heating to destroy cancer tissues. During treatment, the intense heat generated can cause water from the infused saline and inside the tissue to vaporise. Conventionally, the effects of vaporisation have been modelled by adopting the apparent heat capacity method. However, this approach does not account for the loss of water content during vaporisation, which raises questions on its accuracy, primarily because of the large water content present during saline-infused RFA. To address this, the present study proposes an alternative approach to model vaporisation effects during saline-infused RFA. The approach adopts and modifies the water fraction method to account for the effects of vaporisation, condensation and diffusion of water inside the tissue during saline-infused RFA. The framework was compared against the commonly used apparent heat capacity method through numerical simulations carried out on 3D finite element models of the liver. Results indicated that unlike condensation, the role of diffusion of water during saline-infused RFA was not as significant as condensation, where the latter was found to affect the ablation process. With the water fraction method, there was a trend of exponential decrease in tissue electrical conductivity with time, which ultimately led to the prediction of smaller coagulation volume than that of the apparent heat capacity method.
Publisher: Elsevier
Relation: International journal of heat and mass transfer Vol. 194, no. (2022), p. 123062
Rights: All metadata describing materials held in, or linked to, the repository is freely available under a CC0 licence
Subject: Ablation (Surgery); Analysis; Condensation; Electrical conductivity; Numerical analysis; RFA; Saline infusion; Vaporisation; Water fraction; 40 Engineering; 49 Mathematical Sciences; 51 Physical sciences
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