Feasibility of Using a Novel 2.45 GHz Double Short Distance Slot Coaxial Antenna for Minimally Invasive Cancer Breast Microwave Ablation Therapy: Computational Model, Phantom, and In Vivo Swine Experimentation

Microwave ablation (MWA) by using coaxial antennas is a promising alternative for breast cancer treatment. A double short distance slot coaxial antenna as a newly optimized applicator for minimally invasive treatment of breast cancer is proposed. To validate and to analyze the feasibility of using t...

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Autores principales: Ortega-Palacios, R., Trujillo-Romero, C. J., Cepeda Rubio, M. F. J., Vera, A., Leija, L., Reyes, Jose L., Ramírez-Estudillo, M. C., Morales-Alvarez, F., Vega-López, M. A.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Hindawi 2018
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5964617/
https://www.ncbi.nlm.nih.gov/pubmed/29854360
http://dx.doi.org/10.1155/2018/5806753
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author Ortega-Palacios, R.
Trujillo-Romero, C. J.
Cepeda Rubio, M. F. J.
Vera, A.
Leija, L.
Reyes, Jose L.
Ramírez-Estudillo, M. C.
Morales-Alvarez, F.
Vega-López, M. A.
author_facet Ortega-Palacios, R.
Trujillo-Romero, C. J.
Cepeda Rubio, M. F. J.
Vera, A.
Leija, L.
Reyes, Jose L.
Ramírez-Estudillo, M. C.
Morales-Alvarez, F.
Vega-López, M. A.
author_sort Ortega-Palacios, R.
collection PubMed
description Microwave ablation (MWA) by using coaxial antennas is a promising alternative for breast cancer treatment. A double short distance slot coaxial antenna as a newly optimized applicator for minimally invasive treatment of breast cancer is proposed. To validate and to analyze the feasibility of using this method in clinical treatment, a computational model, phantom, and breast swine in vivo experimentation were carried out, by using four microwave powers (50 W, 30 W, 20 W, and 10 W). The finite element method (FEM) was used to develop the computational model. Phantom experimentation was carried out in breast phantom. The in vivo experimentation was carried out in a 90 kg swine sow. Tissue damage was estimated by comparing control and treated micrographs of the porcine mammary gland samples. The coaxial slot antenna was inserted in swine breast glands by using image-guided ultrasound. In all cases, modeling, in vivo and phantom experimentation, and ablation temperatures (above 60°C) were reached. The in vivo experiments suggest that this new MWA applicator could be successfully used to eliminate precise and small areas of tissue (around 20–30 mm(2)). By modulating the power and time applied, it may be possible to increase/decrease the ablation area.
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spelling pubmed-59646172018-05-31 Feasibility of Using a Novel 2.45 GHz Double Short Distance Slot Coaxial Antenna for Minimally Invasive Cancer Breast Microwave Ablation Therapy: Computational Model, Phantom, and In Vivo Swine Experimentation Ortega-Palacios, R. Trujillo-Romero, C. J. Cepeda Rubio, M. F. J. Vera, A. Leija, L. Reyes, Jose L. Ramírez-Estudillo, M. C. Morales-Alvarez, F. Vega-López, M. A. J Healthc Eng Research Article Microwave ablation (MWA) by using coaxial antennas is a promising alternative for breast cancer treatment. A double short distance slot coaxial antenna as a newly optimized applicator for minimally invasive treatment of breast cancer is proposed. To validate and to analyze the feasibility of using this method in clinical treatment, a computational model, phantom, and breast swine in vivo experimentation were carried out, by using four microwave powers (50 W, 30 W, 20 W, and 10 W). The finite element method (FEM) was used to develop the computational model. Phantom experimentation was carried out in breast phantom. The in vivo experimentation was carried out in a 90 kg swine sow. Tissue damage was estimated by comparing control and treated micrographs of the porcine mammary gland samples. The coaxial slot antenna was inserted in swine breast glands by using image-guided ultrasound. In all cases, modeling, in vivo and phantom experimentation, and ablation temperatures (above 60°C) were reached. The in vivo experiments suggest that this new MWA applicator could be successfully used to eliminate precise and small areas of tissue (around 20–30 mm(2)). By modulating the power and time applied, it may be possible to increase/decrease the ablation area. Hindawi 2018-05-08 /pmc/articles/PMC5964617/ /pubmed/29854360 http://dx.doi.org/10.1155/2018/5806753 Text en Copyright © 2018 R. Ortega-Palacios et al. http://creativecommons.org/licenses/by/4.0/ This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Research Article
Ortega-Palacios, R.
Trujillo-Romero, C. J.
Cepeda Rubio, M. F. J.
Vera, A.
Leija, L.
Reyes, Jose L.
Ramírez-Estudillo, M. C.
Morales-Alvarez, F.
Vega-López, M. A.
Feasibility of Using a Novel 2.45 GHz Double Short Distance Slot Coaxial Antenna for Minimally Invasive Cancer Breast Microwave Ablation Therapy: Computational Model, Phantom, and In Vivo Swine Experimentation
title Feasibility of Using a Novel 2.45 GHz Double Short Distance Slot Coaxial Antenna for Minimally Invasive Cancer Breast Microwave Ablation Therapy: Computational Model, Phantom, and In Vivo Swine Experimentation
title_full Feasibility of Using a Novel 2.45 GHz Double Short Distance Slot Coaxial Antenna for Minimally Invasive Cancer Breast Microwave Ablation Therapy: Computational Model, Phantom, and In Vivo Swine Experimentation
title_fullStr Feasibility of Using a Novel 2.45 GHz Double Short Distance Slot Coaxial Antenna for Minimally Invasive Cancer Breast Microwave Ablation Therapy: Computational Model, Phantom, and In Vivo Swine Experimentation
title_full_unstemmed Feasibility of Using a Novel 2.45 GHz Double Short Distance Slot Coaxial Antenna for Minimally Invasive Cancer Breast Microwave Ablation Therapy: Computational Model, Phantom, and In Vivo Swine Experimentation
title_short Feasibility of Using a Novel 2.45 GHz Double Short Distance Slot Coaxial Antenna for Minimally Invasive Cancer Breast Microwave Ablation Therapy: Computational Model, Phantom, and In Vivo Swine Experimentation
title_sort feasibility of using a novel 2.45 ghz double short distance slot coaxial antenna for minimally invasive cancer breast microwave ablation therapy: computational model, phantom, and in vivo swine experimentation
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5964617/
https://www.ncbi.nlm.nih.gov/pubmed/29854360
http://dx.doi.org/10.1155/2018/5806753
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