Tissue Variability and Antennas for Power Transfer to Wireless Implantable Medical Devices

The design of effective transcutaneous systems demands the consideration of inevitable variations in tissue characteristics, which vary across body areas, among individuals, and over time. The purpose of this paper was to design and evaluate several printed antenna topologies for ultrahigh frequency...

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Published in	IEEE journal of translational engineering in health and medicine Vol. 5; pp. 1 - 11
Main Authors	Bocan, Kara N., Mickle, Marlin H., Sejdic, Ervin
Format	Journal Article
Language	English
Published	United States IEEE 01.01.2017
Subjects	Antenna measurements antennas Atmospheric modeling Dipole antennas Fats implantable medical devices Implants tissue dielectric properties Topology transcutaneous energy transfer Wireless power transfer transcutaneous energy transfer tissue dielectric properties implantable medical devices antennas Wireless power transfer
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Abstract	The design of effective transcutaneous systems demands the consideration of inevitable variations in tissue characteristics, which vary across body areas, among individuals, and over time. The purpose of this paper was to design and evaluate several printed antenna topologies for ultrahigh frequency (UHF) transcutaneous power transfer to implantable medical devices, and to investigate the effects of variations in tissue properties on dipole and loop topologies. Here, we show that a loop antenna topology provides the greatest achievable gain with the smallest implanted antenna, while a dipole system provides higher impedance for conjugate matching and the ability to increase gain with a larger external antenna. In comparison to the dipole system, the loop system exhibits greater sensitivity to changes in tissue structure and properties in terms of power gain, but provides higher gain when the separation is on the order of the smaller antenna dimension. The dipole system was shown to provide higher gain than the loop system at greater implant depths for the same implanted antenna area, and was less sensitive to variations in tissue properties and structure in terms of power gain at all investigated implant depths. The results show the potential of easily-fabricated, low-cost printed antenna topologies for UHF transcutaneous power, and the importance of environmental considerations in choosing the antenna topology.
AbstractList	The design of effective transcutaneous systems demands the consideration of inevitable variations in tissue characteristics, which vary across body areas, among individuals, and over time. The purpose of this paper was to design and evaluate several printed antenna topologies for ultrahigh frequency (UHF) transcutaneous power transfer to implantable medical devices, and to investigate the effects of variations in tissue properties on dipole and loop topologies. Here, we show that a loop antenna topology provides the greatest achievable gain with the smallest implanted antenna, while a dipole system provides higher impedance for conjugate matching and the ability to increase gain with a larger external antenna. In comparison to the dipole system, the loop system exhibits greater sensitivity to changes in tissue structure and properties in terms of power gain, but provides higher gain when the separation is on the order of the smaller antenna dimension. The dipole system was shown to provide higher gain than the loop system at greater implant depths for the same implanted antenna area, and was less sensitive to variations in tissue properties and structure in terms of power gain at all investigated implant depths. The results show the potential of easily-fabricated, low-cost printed antenna topologies for UHF transcutaneous power, and the importance of environmental considerations in choosing the antenna topology.
Author	Mickle, Marlin H. Bocan, Kara N. Sejdic, Ervin
AuthorAffiliation	Department of Electrical and Computer Engineering University of Pittsburgh Pittsburgh PA 15260 USA
AuthorAffiliation_xml	– name: Department of Electrical and Computer Engineering University of Pittsburgh Pittsburgh PA 15260 USA
Author_xml	– sequence: 1 givenname: Kara N. orcidid: 0000-0002-5780-5016 surname: Bocan fullname: Bocan, Kara N. organization: Department of Electrical and Computer Engineering, University of Pittsburgh, Pittsburgh, PA, USA – sequence: 2 givenname: Marlin H. surname: Mickle fullname: Mickle, Marlin H. organization: Department of Electrical and Computer Engineering, University of Pittsburgh, Pittsburgh, PA, USA – sequence: 3 givenname: Ervin orcidid: 0000-0003-4987-8298 surname: Sejdic fullname: Sejdic, Ervin email: esejdic@ieee.org organization: Department of Electrical and Computer Engineering, University of Pittsburgh, Pittsburgh, PA, USA
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/29018637$$D View this record in MEDLINE/PubMed
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SubjectTerms	Antenna measurements antennas Atmospheric modeling Dipole antennas Fats implantable medical devices Implants tissue dielectric properties Topology transcutaneous energy transfer Wireless power transfer
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Title	Tissue Variability and Antennas for Power Transfer to Wireless Implantable Medical Devices
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