Development of a high SAR conformal antenna for hyperthermia tumors treatment

Yun Seo Koo; Robab Kazemi; Quanhua Liu; Jeffrey C. Phillips; Aly E. Fathy

doi:10.1109/TAP.2014.2357419

Development of a high SAR conformal antenna for hyperthermia tumors treatment

Yun Seo Koo^*
, Robab Kazemi
, Quanhua Liu
, Jeffrey C. Phillips
, Aly E. Fathy

^*Corresponding author for this work

School of Information and Electronics

Research output: Contribution to journal › Article › peer-review

40 Citations (Scopus)

Abstract

A light weight, conformal, flexible, and clinically relevant hyperthermia applicator for the treatment of cancerous tumors has been developed. The applicator uses microwave hyperthermia for applying homogeneous thermal distribution with improved thermal dosimetry. The design utilizes a half wavelength meander-line to feed a microstrip slot antenna. It is capable of deeper penetration, has a high SAR and adequately matched input-impedance for various tissue loading. With a compact size of 11.0 cm × 15.0 cm × 0.47 cm without a back-shield and 11.0 cm × 15.0 cm × 0.98 cm with a back-shield, the applicator is capable to overcome many of the disadvantages of traditional hyperthermia applicators. The applicator has excellent SAR (point) with a measured value of 45 mm and exhibits a uniform E-field distribution, reduced surface and backfield irradiation and improved directional irradiation.

Original language	English
Article number	6899596
Pages (from-to)	5830-5840
Number of pages	11
Journal	IEEE Transactions on Antennas and Propagation
Volume	62
Issue number	11
DOIs	https://doi.org/10.1109/TAP.2014.2357419
Publication status	Published - 1 Nov 2014

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

Keywords

Conformal hyperthermia applicator
microstrip-fed slot antenna
superficial tumors
superficial tumors treatment therapeutic procedure

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10.1109/TAP.2014.2357419

Cite this

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title = "Development of a high SAR conformal antenna for hyperthermia tumors treatment",

abstract = "A light weight, conformal, flexible, and clinically relevant hyperthermia applicator for the treatment of cancerous tumors has been developed. The applicator uses microwave hyperthermia for applying homogeneous thermal distribution with improved thermal dosimetry. The design utilizes a half wavelength meander-line to feed a microstrip slot antenna. It is capable of deeper penetration, has a high SAR and adequately matched input-impedance for various tissue loading. With a compact size of 11.0 cm × 15.0 cm × 0.47 cm without a back-shield and 11.0 cm × 15.0 cm × 0.98 cm with a back-shield, the applicator is capable to overcome many of the disadvantages of traditional hyperthermia applicators. The applicator has excellent SAR (point) with a measured value of 45 mm and exhibits a uniform E-field distribution, reduced surface and backfield irradiation and improved directional irradiation.",

keywords = "Conformal hyperthermia applicator, microstrip-fed slot antenna, superficial tumors, superficial tumors treatment therapeutic procedure",

author = "Koo, \{Yun Seo\} and Robab Kazemi and Quanhua Liu and Phillips, \{Jeffrey C.\} and Fathy, \{Aly E.\}",

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doi = "10.1109/TAP.2014.2357419",

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AU - Koo, Yun Seo

AU - Kazemi, Robab

AU - Liu, Quanhua

AU - Phillips, Jeffrey C.

AU - Fathy, Aly E.

PY - 2014/11/1

Y1 - 2014/11/1

N2 - A light weight, conformal, flexible, and clinically relevant hyperthermia applicator for the treatment of cancerous tumors has been developed. The applicator uses microwave hyperthermia for applying homogeneous thermal distribution with improved thermal dosimetry. The design utilizes a half wavelength meander-line to feed a microstrip slot antenna. It is capable of deeper penetration, has a high SAR and adequately matched input-impedance for various tissue loading. With a compact size of 11.0 cm × 15.0 cm × 0.47 cm without a back-shield and 11.0 cm × 15.0 cm × 0.98 cm with a back-shield, the applicator is capable to overcome many of the disadvantages of traditional hyperthermia applicators. The applicator has excellent SAR (point) with a measured value of 45 mm and exhibits a uniform E-field distribution, reduced surface and backfield irradiation and improved directional irradiation.

AB - A light weight, conformal, flexible, and clinically relevant hyperthermia applicator for the treatment of cancerous tumors has been developed. The applicator uses microwave hyperthermia for applying homogeneous thermal distribution with improved thermal dosimetry. The design utilizes a half wavelength meander-line to feed a microstrip slot antenna. It is capable of deeper penetration, has a high SAR and adequately matched input-impedance for various tissue loading. With a compact size of 11.0 cm × 15.0 cm × 0.47 cm without a back-shield and 11.0 cm × 15.0 cm × 0.98 cm with a back-shield, the applicator is capable to overcome many of the disadvantages of traditional hyperthermia applicators. The applicator has excellent SAR (point) with a measured value of 45 mm and exhibits a uniform E-field distribution, reduced surface and backfield irradiation and improved directional irradiation.

KW - Conformal hyperthermia applicator

KW - microstrip-fed slot antenna

KW - superficial tumors

KW - superficial tumors treatment therapeutic procedure

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JO - IEEE Transactions on Antennas and Propagation

JF - IEEE Transactions on Antennas and Propagation

IS - 11

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ER -

Development of a high SAR conformal antenna for hyperthermia tumors treatment

Abstract

UN SDGs

Keywords

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