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Safety Analysis of Medical Implants in the Human Head Exposed to a Wireless Power Transfer System

Authors
Shah, Izaz AliBasir, AbdulCho, YoungdaeYoo, Hyoungsuk
Issue Date
Jun-2022
Publisher
Institute of Electrical and Electronics Engineers
Keywords
Implants; Magnetic heads; Biomedical imaging; Coils; Brain modeling; Lead; Bones; Exposure evaluation; human model; medical implants; portable electronics; specific absorption rate (SAR); wireless power transfer
Citation
IEEE Transactions on Electromagnetic Compatibility, v.64, no.3, pp 640 - 649
Pages
10
Indexed
SCIE
SCOPUS
Journal Title
IEEE Transactions on Electromagnetic Compatibility
Volume
64
Number
3
Start Page
640
End Page
649
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/209282
DOI
10.1109/TEMC.2022.3144468
ISSN
0018-9375
1558-187X
Abstract
The interactions of medical implants in the human body with electromagnetic fields from newly introduced high-field technologies such as near-field wireless power transfer (WPT) are of great concern. In this study, the effects of implants on the specific absorption rate (SAR) in a head model were computationally evaluated in the immediate vicinity of a WPT system operating at 6.78 MHz with a transferred power of 50 W. The SAR in the head model located 30 mm above the WPT system was evaluated with a skull plate, bone plates (different shapes), miniplate, fixtures, and a deep brain stimulator. The results indicated that even small implants had notable effects on the SAR distribution and corresponding local peak and mass-averaged SAR values. Apart from the size and shape of the implant, the crucial factor influencing the SAR was the implant's position with respect to the WPT system. Therefore, various position configurations were simulated for the WPT system to determine the worst case scenario for each specific implant. Although the local peak SAR value was increased by a factor of 600 in the worst-case scenario (for the skull plate), the SAR$_{\text{1}g}$ and SAR$_{\text{10}g}$ were only increased by factors of seven and four, respectively. Compliance with international safety limits was studied, followed by computing the maximum allowable transmit power (MATP). It was found that, without the implant, the MATP satisfying SAR$_{\text{1}g}$ was 43 W for the designed WPT system, and was reduced to 6.9 W in the presence of the skull plate.
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