SAR Evaluation Towards Breast Cancer in Hyperthermia Treatment
Hyperthermia treatment is an alternative treatment that can be considered in breast cancer. This treatment uses Electromagnetic waves as a source of heat to destroy cell cancer. The main challenge for this treatment is the focusing capability and the existence of a wide area of unwanted hotspots at...
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my.unimas.ir.358132023-03-29T04:21:03Z http://ir.unimas.my/id/eprint/35813/ SAR Evaluation Towards Breast Cancer in Hyperthermia Treatment Bibi Sarpinah, Sheikh Naimullah Kasumawati, Lias Norlida, Buniyamin Mazlina, Mansor Hassan Hazrul, Mohamad Basri Dzufi Iszafawaty, Ispawi TK Electrical engineering. Electronics Nuclear engineering Hyperthermia treatment is an alternative treatment that can be considered in breast cancer. This treatment uses Electromagnetic waves as a source of heat to destroy cell cancer. The main challenge for this treatment is the focusing capability and the existence of a wide area of unwanted hotspots at the surrounding healthy cell. Therefore, in this paper, the desired penetration depth and focus position distance are obtained and compared with different frequencies and substrates. The desired penetration depth and focus position distance are basically determined from the statistical analysis of real mammogram breast cancer images. The simulation with SEMCAD X is then conducted to select the best operating frequency and substrate to achieve the great penetration depth and focus position distance on the treated tissue. Based on the results, the different operating frequencies with different substrates have provided different penetration depth and focus position distance. The unwanted hotspot areas are also different. In conjunction with that, further research needs to be carried out in order to obtain the best operating frequency with the most suitable substrate to be used that may attain the required results on the treated tissue, mainly when different cancer depths and focus position distances are concerned. IEEE 2021-08-13 Article PeerReviewed text en http://ir.unimas.my/id/eprint/35813/1/breats1.pdf Bibi Sarpinah, Sheikh Naimullah and Kasumawati, Lias and Norlida, Buniyamin and Mazlina, Mansor Hassan and Hazrul, Mohamad Basri and Dzufi Iszafawaty, Ispawi (2021) SAR Evaluation Towards Breast Cancer in Hyperthermia Treatment. 2021 IEEE Symposium on Industrial Electronics & Applications (ISIEA) (2021). ISSN 2472-7660 https://ieeexplore.ieee.org/document/9510009 10.1109/ISIEA51897.2021.9510009 |
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TK Electrical engineering. Electronics Nuclear engineering Bibi Sarpinah, Sheikh Naimullah Kasumawati, Lias Norlida, Buniyamin Mazlina, Mansor Hassan Hazrul, Mohamad Basri Dzufi Iszafawaty, Ispawi SAR Evaluation Towards Breast Cancer in Hyperthermia Treatment |
| description |
Hyperthermia treatment is an alternative treatment that can be considered in breast cancer. This treatment uses Electromagnetic waves as a source of heat to destroy cell cancer. The main challenge for this treatment is the focusing capability and the existence of a wide area of unwanted hotspots at the surrounding healthy cell. Therefore, in this paper, the desired penetration depth and focus position distance are obtained and compared with different frequencies and substrates. The desired penetration depth and focus position distance are basically determined from the statistical analysis of real mammogram breast cancer images. The simulation with SEMCAD X is then conducted to select the best operating frequency and substrate to achieve the great penetration depth and focus position distance on the treated tissue. Based on the results, the different operating frequencies with different substrates have provided different penetration depth and focus position distance. The unwanted hotspot areas are also different. In conjunction with that, further research needs to be carried out in order to obtain the best operating frequency with the most suitable substrate to be used that may attain the required results on the treated tissue, mainly when different cancer depths and focus position distances are concerned. |
| format |
Article |
| author |
Bibi Sarpinah, Sheikh Naimullah Kasumawati, Lias Norlida, Buniyamin Mazlina, Mansor Hassan Hazrul, Mohamad Basri Dzufi Iszafawaty, Ispawi |
| author_facet |
Bibi Sarpinah, Sheikh Naimullah Kasumawati, Lias Norlida, Buniyamin Mazlina, Mansor Hassan Hazrul, Mohamad Basri Dzufi Iszafawaty, Ispawi |
| author_sort |
Bibi Sarpinah, Sheikh Naimullah |
| title |
SAR Evaluation Towards Breast Cancer in Hyperthermia Treatment |
| title_short |
SAR Evaluation Towards Breast Cancer in Hyperthermia Treatment |
| title_full |
SAR Evaluation Towards Breast Cancer in Hyperthermia Treatment |
| title_fullStr |
SAR Evaluation Towards Breast Cancer in Hyperthermia Treatment |
| title_full_unstemmed |
SAR Evaluation Towards Breast Cancer in Hyperthermia Treatment |
| title_sort |
sar evaluation towards breast cancer in hyperthermia treatment |
| publisher |
IEEE |
| publishDate |
2021 |
| url |
http://ir.unimas.my/id/eprint/35813/1/breats1.pdf http://ir.unimas.my/id/eprint/35813/ https://ieeexplore.ieee.org/document/9510009 |
| _version_ |
1761675237662916608 |