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Electromagnetic Biology and Medicine Volume 40, 2021 - Issue 2
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Research Article

A novel ISM band reflector type applicator design for microwave ablation systems

Caner Murata Department of Electrical and Electronics Engineering, Izmir Katip Celebi University, Izmir, TurkeyCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0001-9251-9149View further author information
ORCID Icon,
Merih Palandokena Department of Electrical and Electronics Engineering, Izmir Katip Celebi University, Izmir, TurkeyView further author information
,
Irfan Kayab Department of Mechanical Engineering, Eskisehir Technical University, Eskisehir, TurkeyView further author information
&
Adnan Kayaa Department of Electrical and Electronics Engineering, Izmir Katip Celebi University, Izmir, TurkeyView further author information
Pages 286-300 | Received 14 Nov 2020, Accepted 31 Jan 2021, Published online: 14 Feb 2021

References

  • Balanis, C. A. 2008. Antennas for medical therapy and diagnostics. In Modern antenna handbook, C. Balanis, ed., 1377–428. New York, United States: J. Wiley & Sons Inc.ISBN: 978–0–470–03634–1. Chap. 27.
  • Bertram, J. M., D. Yang, M. C. Converse, J. G. Webster, and D. M. Mahvi. 2006. A review of coaxial-based interstitial antennas for hepatic microwave ablation. Crit. Rev.™ Biomed. Eng. 34:3.
  • Biffi Gentili, G., C. Ignesti, and V. Tesi. 2014. Development of a novel switched-mode 2.45 GHz microwave multiapplicator ablation system. Int. J. Microwave Sci. Technol. 2014:1–12. doi:10.1155/2014/973736.
  • Boni, L., A. Benevento, F. Cantore, G. Dionigi, F. Rovera, and R. Dionigi. 2006. Technological advances in minimally invasive surgery. Expert Rev Med Devices 3:147–53. doi:10.1586/17434440.3.2.147.
  • Brace, C. L., P. F. Laeseke, D. W. van der Weide, and F. T. Lee. 2005. Microwave ablation with a triaxial antenna: Results in ex vivo bovine liver. IEEE Trans. Microw. Theory Tech. 53:215–20. doi:10.1109/TMTT.2004.839308.
  • Cavagnaro, M., C. Amabile, P. Bernardi, S. Pisa, and N. Tosoratti. 2010. A minimally invasive antenna for microwave ablation therapies: Design, performances, and experimental assessment. IEEE Trans. Biomed. Eng. 58:949–59. doi:10.1109/TBME.2010.2099657.
  • Chaichanyut, M., P. Lertprasert, and S. Tungjitkusolmun 2013, November. Experimental studies on power control microwave ablation in vitro animal tissues with microwave percutaneous coagulator. In 2013 Asia-Pacific microwave conference proceedings (APMC), (pp. 830–32). Seoul, South Korea: IEEE.
  • Chalermwisutkul, S., V. Jantarachote, K. Arpanutud, P. Akkaraekthalin, and D. Heberling 2019, March. A coaxial microwave heating applicator with double loading discs for a confined power loss density pattern. In 2019 13th European conference on antennas and propagation (EuCAP), (pp. 1–4). Krakow, Poland, Poland: IEEE.
  • Chiang, J., S. Birla, M. Bedoya, D. Jones, J. Subbiah, and C. L. Brace. 2014. Modeling and validation of microwave ablations with internal vaporization. IEEE Trans. Biomed. Eng. 62:657–63. doi:10.1109/TBME.2014.2363173.
  • Diederich, C. J. 2005. Thermal ablation and high-temperature thermal therapy: Overview of technology and clinical implementation. Int. J. Hyperthermia 21:745–53. doi:10.1080/02656730500271692.
  • Doll, R., and R. Peto. 1981. The causes of cancer: Quantitative estimates of avoidable risks of cancer in the United States today. JNCI: J. Natl. Cancer Inst. 66:1192–308. doi:10.1093/jnci/66.6.1192.
  • Erdmann, B., J. Lang, and M. Seebass 1997. Optimization of temperature distributions for regional hyperthermia based on a nonlinear heat transfer model.
  • Falciglia, P. P., P. Roccaro, L. Bonanno, G. De Guidi, F. G. Vagliasindi, and S. Romano. 2018. A review on the microwave heating as a sustainable technique for environmental remediation/detoxification applications. Renewable Sustainable Energy Rev. 95:147–70. doi:10.1016/j.rser.2018.07.031.
  • Fallahi, H., and P. Prakash. 2019. Design of a microwave global endometrial ablation device. IEEE journal of electromagnetics. RF Microwaves Med. Biol. 3:148–56.
  • Gao, H., X. Wang, S. Wu, Z. Zhou, and Y. Bai. 2019. 2450‐MHz microwave ablation temperature simulation using temperature‐dependence feedback of characteristic parameters. Int. J. RF Microwave Comput. Aided Eng. 29:e21488. doi:10.1002/mmce.21488.
  • Gautherie, M., Y. Qenneville, and C. H. Gros. 1975. Thermogenesis of mammary epitheliomas. III. Study, by means of fluvography, of the termal conductivity of mammary tissue and of the influence of tumor vascularization. Biomed. /[publiee pour l’AAICIG] 22:237–45.
  • Hall, K., H. Zhang, and C. Furse. 2020. Design of an interstitial microwave applicator for 3D printing in the body. IEEE J. Electromagn. RF Microwaves Med. Biol. 4:260–64. doi:10.1109/JERM.2020.3003834.
  • Hwang, E. S., D. Y. Lichtensztajn, S. L. Gomez, B. Fowble, and C. A. Clarke. 2013. Survival after lumpectomy and mastectomy for early stage invasive breast cancer: The effect of age and hormone receptor status. Cancer 119:1402–11. doi:10.1002/cncr.27795.
  • Laeseke, P. F., F. T. Lee Jr, D. W. van der Weide, and C. L. Brace. 2009. Multiple-antenna microwave ablation: Spatially distributing power improves thermal profiles and reduces invasiveness. J Interv Oncol 2:65.
  • Liang, P., Y. Wang, X. Yu, and B. Dong. 2009. Malignant liver tumors: Treatment with percutaneous microwave ablation—complications among cohort of 1136 patients. Radiology 251:933–40. doi:10.1148/radiol.2513081740.
  • Liao, Y., S. Zhang, Z. Tang, X. Liu, and K. Huang. 2017. Power loss density of electromagnetic waves in unimolecular reactions. RSC Adv 7:26546–50. doi:10.1039/C7RA01906H.
  • Luyen, H., S. C. Hagness, and N. Behdad. 2015. A balun-free helical antenna for minimally invasive microwave ablation. IEEE Trans. Antennas Propag. 63:959–65. doi:10.1109/TAP.2015.2389223.
  • Manop, P., P. Keangin, N. Nasongkla, and K. Eawsakul 2020, April. In vitro experiments of microwave ablation in liver cancer cells (effects of microwave power and heating time). In 2020 IEEE 7th International conference on industrial engineering and applications (ICIEA), (pp. 805–13). Bangkok, Thailand, Thailand: IEEE.
  • Mohtashami, Y., H. Luyen, S. C. Hagness, and N. Behdad. 2018. Non-coaxial-based microwave ablation antennas for creating symmetric and asymmetric coagulation zones. J. Appl. Phys. 123:214903. doi:10.1063/1.5019267.
  • Mullan, F. 1985. Seasons of survival: Reflections of a physician with cancer. Massachusetts Medical Society, USA.
  • Muntoni, G., A. Fanti, G. Montisci, and M. Muntoni. 2018. A blood perfusion model of a RMS tumor in a local hyperthermia multi-physic scenario: A preliminary study. IEEE Journal of Electromagnetics. RF Microwaves Med. Biol. 3:71–78.
  • Neira, L. M., J. Sawicki, B. D. Van Veen, and S. C. Hagness 2018, June. Characterization and analysis of wideband temperature-dependent dielectric properties of liver tissue for next-generation minimally invasive microwave tumor ablation technology. In 2018 IEEE/MTT-S International microwave symposium-IMS, (pp. 911–14). Philadelphia, PA, USA: IEEE.
  • Ortega-Palacios, R., L. Leija, A. Vera, and M. F. J. Cepeda 2010, September. Measurement of breast-tumor phantom dielectric properties for microwave breast cancer treatment evaluation. In 2010 7th International conference on electrical engineering computing science and automatic control, (pp. 216–19). Tuxtla Gutierrez, Mexico: IEEE.
  • Pozar, D. M. 2011. Microwave engineering. John wiley & sons, USA.
  • Reimann, C., M. Schülsler, S. Schmidt, F. Hübner, B. Bazrafshan, T. Vogl, and R. Jakoby 2018, June. Microwave ablation applicator with sensing capabilities for thermal treatment of malignant tissue. In 2018 IEEE/MTT-S International microwave symposium-IMS, (pp. 1278–81). Philadelphia, PA, USA: IEEE.
  • Sarabi, F. E., M. Ghorbani, A. Stankiewicz, and H. Nigar. 2020. Coaxial traveling-wave microwave reactors: Design challenges and solutions. Chem. Eng. Res. Des. 153:677–83. doi:10.1016/j.cherd.2019.11.022.
  • Tal, N., and Y. Leviatan 2017, November. A minimally invasive microwave ablation antenna. In 2017 IEEE International conference on microwaves, antennas, communications and electronic systems (COMCAS), (pp. 1–3).Tel-Aviv, Israel: IEEE.
  • World Health Organization. 1979. WHO handbook for reporting results of cancer treatment. Geneva: World Health Organization.
  • Yu, M. H., J. Y. Lee, S. R. Jun, K. W. Kim, S. H. Kim, J. K. Han, and B. I. Choi. 2016. Radiofrequency ablation with an internally cooled monopolar directional electrode: Ex vivo and in vivo experimental studies in the liver. Radiology 278:395–404. doi:10.1148/radiol.2015142269.

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