Analysis of Thermal Properties of Brain Tissues with Bioheat Transfer by Reduced Differential Transform Approach

Analysis of Thermal Properties of Brain Tissues with Bioheat Transfer by Reduced Differential Transform Approach

Microwave ablation (MWA) for brain tumours is a highly effective treatment for destroying  brain tumour cells, where energy is delivered through devices to increase the temperature of brain tumour cells. The primary goal of microwave ablation is to increase the temperature of brain tissues, which ki...

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Bibliographic Details
Main Authors: Madhuri Sonje, Chandrashekhar Sutar
Format: Article
Language:English
Published: University of Maragheh 2025-04-01
Series:Sahand Communications in Mathematical Analysis
Subjects:
microwave ablation (mwa)
reduced differential transform method
single phase lag (spl)
thermal damage
linear thermal stresses
Online Access:https://scma.maragheh.ac.ir/article_721521_0375bbe851a382f96697effc305768dc.pdf
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Summary:Microwave ablation (MWA) for brain tumours is a highly effective treatment for destroying  brain tumour cells, where energy is delivered through devices to increase the temperature of brain tumour cells. The primary goal of microwave ablation is to increase the temperature of brain tissues, which kills tumour cells. Raising the temperature can destroy tumoural cancer cells, usually with minimal damage to healthy organs. This paper presents the modelling of heat transfer of healthy and tumoural brain tissues during MWA  treatment by using single phase lag Penne's bioheat theory. A mathematical model describing this process during MWA treatment provides valuable insights into the thermal effects of this treatment. The reduced differential transform technique represents the analytical solution for the temperature of healthy and tumoural brain tissues. This paper deals with the comparison of temperature distribution between healthy and tumoural brain tissue during MWA treatment. The thermoelastic properties of healthy and tumoural brain tissues have been discussed and compared by using Python graphs. Also, thermal damage on healthy brain tissues has been represented graphically. This knowledge contributes to the safety and optimization of MWA treatment.
ISSN:2322-5807
2423-3900

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