Yuji Ishioka scite author profile

Yuji Ishioka

3Publications

3Citation Statements Received

13Citation Statements Given

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Tokyo University of Science

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Analysis of specific absorption rate and internal electric field in human biological tissues surrounding an air-core coil-type transcutaneous energy transmission transformer

2016

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In this study, we analyzed the internal electric field E and specific absorption rate (SAR) of human biological tissues surrounding an air-core coil transcutaneous energy transmission transformer. Using an electromagnetic simulator, we created a model of human biological tissues consisting of a dry skin, wet skin, fat, muscle, and cortical bone. A primary coil was placed on the surface of the skin, and a secondary coil was located subcutaneously inside the body. The E and SAR values for the model representing a 34-year-old male subject were analyzed using electrical frequencies of 0.3-1.5 MHz. The transmitting power was 15 W, and the load resistance was 38.4 Ω. The results showed that the E values were below the International Commission on Non-ionizing Radiation Protection (ICNIRP) limit for the general public exposure between the frequencies of 0.9 and 1.5 MHz, and SAR values were well below the limit prescribed by the ICNIRP for the general public exposure between the frequencies of 0.3 and 1.2 MHz.

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Fundamental Analysis of Electromagnetic Induction Effects on Human Biological Tissues: An Analysis of Four Human Models at 0.9 MHz Frequency

Ishioka

Zulkifli

Suyama

2017

ABE

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Transcutaneous energy transmission systems (TETS), which use electromagnetic induction to wirelessly transfer energy, have been widely used as energy transmission systems for arti cial hearts. TETS help to improve the patient s quality of life and reduce the risk of infection caused by percutaneous connections. However, to provide protection against the established adverse health effects caused by electromagnetic induction, it is necessary to quantify the amount of energy absorbed by biological tissues. In this study, we sought to analyze the speci c absorption rate (SAR) and the internal electric eld E of human biological tissues surrounding an air-core coil transcutaneous energy transmission transformer. We used four types of human biological tissue models with different genders, ages, weights, heights, and body sizes, at a frequency of 0.9 MHz. Each tissue model consisted of dry skin, wet skin, fat, muscle, and cortical bone tissue. A primary coil was placed on the surface of the dry skin tissue, while the secondary coil was embedded between the wet skin and fat tissues. The transmission power was 15 W, and the load resistance was 38.4 Ω. The simulation data was obtained using the FEKO electromagnetic simulator. The results showed that the SAR and E for adult models (male and female) were well below the limits speci ed by ICNIRP for both general public and occupational exposure. For children, the SAR and E exceeded the ICNIRP general public exposure limits but remained below the limits prescribed by ICNIRP for occupational exposure. These results show that it is safe to transmit 15 W of energy in an adult.

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Proposal of a Figure-Eight Coil for Defibrillation

Ishioka

Suyama

2016

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Yuji Ishioka

Analysis of specific absorption rate and internal electric field in human biological tissues surrounding an air-core coil-type transcutaneous energy transmission transformer

Fundamental Analysis of Electromagnetic Induction Effects on Human Biological Tissues: An Analysis of Four Human Models at 0.9 MHz Frequency

Proposal of a Figure-Eight Coil for Defibrillation

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