Microwave-Assisted Chemical Ablation (MA-CA): A Novel Microwave-Assisted Tissue Ablation Procedure—Preliminary Assessment of Efficiency

Microwave (MW) ablation is becoming a routine technology in the interventional radiology field. A new approach combining MW ablation and chemical ablation is developed in this paper. The rationale for the development of this Microwave-Assisted Chemical Ablation (MA-CA) technology was to improve the...

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Bibliographic Details
Published inApplied sciences Vol. 13; no. 12; p. 7177
Main Authors Paré, J. R. Jocelyn, Bélanger, Jacqueline M. R, Cormier, Gabriel, Foucher, Delphine, Thériault, Antony, Savoie, Jean-Christophe, Rochas, Jean-François
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.06.2023
Subjects
Ablation
Ablation (Surgery)
Analysis
Antennas
Cancer
Dielectric properties
Energy
Ethanol
Food
Liver
Microwave-Assisted Ablation (MWA)
Microwave-Assisted Chemical Ablation (MA-CA)
Microwave-Assisted Processes (MAPTM)
Radio frequency
Radiology
susceptors
Technology
tissue ablation
Tumors
Canada
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Summary:Microwave (MW) ablation is becoming a routine technology in the interventional radiology field. A new approach combining MW ablation and chemical ablation is developed in this paper. The rationale for the development of this Microwave-Assisted Chemical Ablation (MA-CA) technology was to improve the utility of thermal ablation as a minimally invasive treatment for cancer. The experimental conditions for ex vivo bovine liver samples were: A—100 W (120 s) with no addition of ethanol; B—100 W (30 s), wait (60 s) (no power), and 100 W (90 s) with no addition of ethanol; C—100 W (30 s), wait (60 s), 100 W (30 s), and 100 W (60 s) with the addition of 5 mL ethanol; and D—100 W (30 s), wait (60 s), 100 W (30 s), 0 W (30 s) with the addition of 2.5 mL ethanol, and 100 W (60 s) with the addition of 5 mL ethanol (12,000 Joules Total). The results showed that with the use of ethanol, the ablation zone was enlarged and revealed improved sphericity. This novel combination has greater advantages than either technology individually. The objective is to increase the precision and efficiency of MW ablation and to broaden the range of tissues and pathologies that can be treated using this new approach, and to validate the benefits that arise from combining the advantages of MW and chemical ablation in a relevant setting.
ISSN:2076-3417
2076-3417
DOI:10.3390/app13127177