MWA Performed at 5.8 GHz through 'Side Firing' Approach: An Exploratory Study

Recent studies have shown that ablation techniques have the potential to eradicate adrenal adenomas while preserving the functionalities of the adrenal gland and the surrounding anatomical structures. This study explores a new microwave ablation (MWA) approach operating at 5.8 GHz and using anatomic...

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Bibliographic Details
Published in:Sensors (Basel, Switzerland) Switzerland), 2022-11, Vol.22 (23), p.9320
Main Authors: Bottiglieri, Anna, Brace, Christopher, O'Halloran, Martin, Farina, Laura
Format: Article
Language:English
Subjects:
Ablation
Ablation Techniques - methods
Adrenal glands
Analysis
Animals
Antennas
Boundary conditions
Dielectric properties
directional heating
Electric fields
Energy levels
Geometry
Heat
Heating
Liver - surgery
Metabolism
Methods
microwave ablation
Microwaves
Moisture content
Neuroendocrine tumors
Numerical analysis
Numerical models
operating frequency
Radiofrequency Ablation
Simulation
Swine
Temperature
Tumors
Vaporization
Water
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Summary:Recent studies have shown that ablation techniques have the potential to eradicate adrenal adenomas while preserving the functionalities of the adrenal gland and the surrounding anatomical structures. This study explores a new microwave ablation (MWA) approach operating at 5.8 GHz and using anatomical and dielectric characteristics of the target tissue to create directional heating patterns. Numerical simulations are executed in planar and 3D adrenal models, considering two energy doses. The numerical study is refined accounting for the vaporization of the tissue water content. experimental evaluations on porcine adrenal models complete the study. The numerical and experimental results show that spherical ablation zones are able to cover the target for both energy doses considered. Nonetheless, most of the non-targeted tissues can be preserved from excessive heating when low energy level is used. Numerical models accounting for water vaporization are capable to foresee the experimental temperature values. This study shows that the proposed MWA directional approach operating at 5.8 GHz can be considered for creating effective and selective ablation zones.
ISSN:1424-8220
1424-8220
DOI:10.3390/s22239320