Computed SAR and Thermal Elevation in a 0.25-mm 2-D Model of the Human Eye and Head in Response to an Implanted Retinal Stimulator - Part II: Results

Gianluca Lazzi; Stephen C. DeMarco; Wentai Liu; James D. Weiland; Mark S. Humayun

doi:10.1109/TAP.2003.816394

Computed SAR and Thermal Elevation in a 0.25-mm 2-D Model of the Human Eye and Head in Response to an Implanted Retinal Stimulator - Part II: Results

Gianluca Lazzi, Stephen C. DeMarco, Wentai Liu, James D. Weiland, Mark S. Humayun

Department of Biomedical Engineering

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

37 Citations (Scopus)

Abstract

This is the second of a series of two papers on the thermal increase in the human eye and head in response to an implanted retinal stimulator. This paper provides specific absorption rates induced in the human head by the extraocular unit and the temperature increases associated with induced electromagnetic fields and power dissipation of the implanted microchip. Results are provided for different assumptions about choroid blood flow. It is shown that computed results associated with the power dissi-pation of the implanted microchip, corresponding to temperature increases of approximately 0. 6 °C in the midvitreous of the eye and 0.2 °C in the retina, closely parallel in-vivo experimental results in animals.

Original language	English
Pages (from-to)	2286-2295
Number of pages	10
Journal	IEEE Transactions on Antennas and Propagation
Volume	51
Issue number	9
DOIs	https://doi.org/10.1109/TAP.2003.816394
Publication status	Published - 2003 Sept

All Science Journal Classification (ASJC) codes

Electrical and Electronic Engineering

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abstract = "This is the second of a series of two papers on the thermal increase in the human eye and head in response to an implanted retinal stimulator. This paper provides specific absorption rates induced in the human head by the extraocular unit and the temperature increases associated with induced electromagnetic fields and power dissipation of the implanted microchip. Results are provided for different assumptions about choroid blood flow. It is shown that computed results associated with the power dissi-pation of the implanted microchip, corresponding to temperature increases of approximately 0. 6 °C in the midvitreous of the eye and 0.2 °C in the retina, closely parallel in-vivo experimental results in animals.",

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T1 - Computed SAR and Thermal Elevation in a 0.25-mm 2-D Model of the Human Eye and Head in Response to an Implanted Retinal Stimulator - Part II

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AU - Lazzi, Gianluca

AU - DeMarco, Stephen C.

AU - Liu, Wentai

AU - Weiland, James D.

AU - Humayun, Mark S.

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Computed SAR and Thermal Elevation in a 0.25-mm 2-D Model of the Human Eye and Head in Response to an Implanted Retinal Stimulator - Part II: Results

Abstract

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