Hyperthermia has been introduced as a therapeutic method and adjuvant therapy in the treatment of some diseases such as breast and pancreatic cancers. On the other hand, other applications of hyperthermia have been considered. In this article, ways to treat knee pain caused by osteoarthritis, patellar chondromasia, rheumatism, knee infection, etc., have been studied using antenna hyperthermia. For antenna hyperthermia, is using a rectangular microstrip antenna, which is the simplest type of antenna. The antenna considered in this article has conformal conditions and is designed in the shape of a knee structure, to create a suitable knee covering. The antenna considered in this article has conformal conditions and is designed in the shape of a knee structure, to create a suitable knee covering. In addition to the geometric structure of the antenna, which fits the structure of the knee, the resonance frequency of the antenna is in the range of ISM standard frequencies and attempts have been made to place it at 2.4 GHz. On the other hand, to show the thermal pattern created by the antenna, the specific absorption rate of the tissue is investigated and its diagram is simulated by the antenna radiation field.
Published in | American Journal of Electromagnetics and Applications (Volume 8, Issue 2) |
DOI | 10.11648/j.ajea.20200802.12 |
Page(s) | 40-45 |
Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
Copyright |
Copyright © The Author(s), 2020. Published by Science Publishing Group |
Knee Pain, Hyperthermia, Microstrip Antenna, Conformal
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APA Style
Saman Rajabi, Ramin Akbari Asbagh, Faraz Askarizadegan. (2020). Design, Optimization and Simulation of Knee Pain Relief Device Using Hyperthermia Technology. American Journal of Electromagnetics and Applications, 8(2), 40-45. https://doi.org/10.11648/j.ajea.20200802.12
ACS Style
Saman Rajabi; Ramin Akbari Asbagh; Faraz Askarizadegan. Design, Optimization and Simulation of Knee Pain Relief Device Using Hyperthermia Technology. Am. J. Electromagn. Appl. 2020, 8(2), 40-45. doi: 10.11648/j.ajea.20200802.12
AMA Style
Saman Rajabi, Ramin Akbari Asbagh, Faraz Askarizadegan. Design, Optimization and Simulation of Knee Pain Relief Device Using Hyperthermia Technology. Am J Electromagn Appl. 2020;8(2):40-45. doi: 10.11648/j.ajea.20200802.12
@article{10.11648/j.ajea.20200802.12, author = {Saman Rajabi and Ramin Akbari Asbagh and Faraz Askarizadegan}, title = {Design, Optimization and Simulation of Knee Pain Relief Device Using Hyperthermia Technology}, journal = {American Journal of Electromagnetics and Applications}, volume = {8}, number = {2}, pages = {40-45}, doi = {10.11648/j.ajea.20200802.12}, url = {https://doi.org/10.11648/j.ajea.20200802.12}, eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ajea.20200802.12}, abstract = {Hyperthermia has been introduced as a therapeutic method and adjuvant therapy in the treatment of some diseases such as breast and pancreatic cancers. On the other hand, other applications of hyperthermia have been considered. In this article, ways to treat knee pain caused by osteoarthritis, patellar chondromasia, rheumatism, knee infection, etc., have been studied using antenna hyperthermia. For antenna hyperthermia, is using a rectangular microstrip antenna, which is the simplest type of antenna. The antenna considered in this article has conformal conditions and is designed in the shape of a knee structure, to create a suitable knee covering. The antenna considered in this article has conformal conditions and is designed in the shape of a knee structure, to create a suitable knee covering. In addition to the geometric structure of the antenna, which fits the structure of the knee, the resonance frequency of the antenna is in the range of ISM standard frequencies and attempts have been made to place it at 2.4 GHz. On the other hand, to show the thermal pattern created by the antenna, the specific absorption rate of the tissue is investigated and its diagram is simulated by the antenna radiation field.}, year = {2020} }
TY - JOUR T1 - Design, Optimization and Simulation of Knee Pain Relief Device Using Hyperthermia Technology AU - Saman Rajabi AU - Ramin Akbari Asbagh AU - Faraz Askarizadegan Y1 - 2020/10/26 PY - 2020 N1 - https://doi.org/10.11648/j.ajea.20200802.12 DO - 10.11648/j.ajea.20200802.12 T2 - American Journal of Electromagnetics and Applications JF - American Journal of Electromagnetics and Applications JO - American Journal of Electromagnetics and Applications SP - 40 EP - 45 PB - Science Publishing Group SN - 2376-5984 UR - https://doi.org/10.11648/j.ajea.20200802.12 AB - Hyperthermia has been introduced as a therapeutic method and adjuvant therapy in the treatment of some diseases such as breast and pancreatic cancers. On the other hand, other applications of hyperthermia have been considered. In this article, ways to treat knee pain caused by osteoarthritis, patellar chondromasia, rheumatism, knee infection, etc., have been studied using antenna hyperthermia. For antenna hyperthermia, is using a rectangular microstrip antenna, which is the simplest type of antenna. The antenna considered in this article has conformal conditions and is designed in the shape of a knee structure, to create a suitable knee covering. The antenna considered in this article has conformal conditions and is designed in the shape of a knee structure, to create a suitable knee covering. In addition to the geometric structure of the antenna, which fits the structure of the knee, the resonance frequency of the antenna is in the range of ISM standard frequencies and attempts have been made to place it at 2.4 GHz. On the other hand, to show the thermal pattern created by the antenna, the specific absorption rate of the tissue is investigated and its diagram is simulated by the antenna radiation field. VL - 8 IS - 2 ER -