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dc.contributor.author
Port, Andreas
dc.contributor.author
Luechinger, Roger
dc.contributor.author
Brunner, David O.
dc.contributor.author
Pruessmann, Klaas P.
dc.date.accessioned
2021-02-17T09:14:40Z
dc.date.available
2021-01-27T06:16:14Z
dc.date.available
2021-02-17T09:14:40Z
dc.date.issued
2021-05
dc.identifier.issn
0740-3194
dc.identifier.issn
1522-2594
dc.identifier.other
10.1002/mrm.28662
en_US
dc.identifier.uri
http://hdl.handle.net/20.500.11850/465803
dc.description.abstract
Purpose To explore the use of conductive elastomer for MR signal detection and the utility of this approach for wearable detector arrays. Methods An elastomer filled with silver microparticles was used to form stretchable radiofrequency coils for MR detection. Their electrical performance in terms of the Qunloaded and Q ratio was assessed in the relaxed state and under repeated strain up to 40%. In a phantom imaging study, the signal‐to‐noise ratio yield of conductive elastomer coils was compared with that of a reference copper coil. Four elastomer coils were integrated with a stretchable textile substrate to form a wearable array for knee imaging. The array was employed for multiple‐angle and kinematic knee imaging in vivo. Results The elastomer coils proved highly stretchable and mechanically robust. Upon repeated stretching by 20%, a medium‐sized coil element settled at Qunloaded of 42 in the relaxed state and 32 at full strain, reflecting sample‐noise dominance. The signal‐to‐noise ratio of elastomer coils was found to be 8% to 16% lower than that achieved with a conventional copper coil. Multiple‐angle and kinematic knee imaging with the wearable array yielded high‐quality results indicating robustness of detection performance against stretching and warping of the array. Conclusion Conductive elastomer is a viable material for MR detection. Coils made from this material reconcile high stretchability and adequate electrical performance with ease of manufacturing. Conductive elastomer also offers inherent restoring forces and is readily washable and sanitizable, making it an excellent basis of wearable detector front ends.
en_US
dc.language.iso
en
en_US
dc.publisher
Wiley
en_US
dc.subject
conductive elastomer
en_US
dc.subject
knee imaging
en_US
dc.subject
wearable array
en_US
dc.title
Elastomer coils for wearable MR detection
en_US
dc.type
Journal Article
dc.date.published
2021-01-12
ethz.journal.title
Magnetic Resonance in Medicine
ethz.journal.volume
85
en_US
ethz.journal.issue
5
en_US
ethz.journal.abbreviated
Magn Reson Med
ethz.pages.start
2882
en_US
ethz.pages.end
2891
en_US
ethz.identifier.wos
ethz.identifier.scopus
ethz.publication.place
Hoboken, NJ
en_US
ethz.publication.status
published
en_US
ethz.leitzahl
ETH Zürich::00002 - ETH Zürich::00012 - Lehre und Forschung::00007 - Departemente::02140 - Dep. Inf.technologie und Elektrotechnik / Dep. of Inform.Technol. Electrical Eng.::02631 - Institut für Biomedizinische Technik / Institute for Biomedical Engineering::03628 - Prüssmann, Klaas P. / Prüssmann, Klaas P.
en_US
ethz.leitzahl.certified
ETH Zürich::00002 - ETH Zürich::00012 - Lehre und Forschung::00007 - Departemente::02140 - Dep. Inf.technologie und Elektrotechnik / Dep. of Inform.Technol. Electrical Eng.::02631 - Institut für Biomedizinische Technik / Institute for Biomedical Engineering::03628 - Prüssmann, Klaas P. / Prüssmann, Klaas P.
ethz.date.deposited
2021-01-27T06:16:18Z
ethz.source
WOS
ethz.eth
yes
en_US
ethz.availability
Metadata only
en_US
ethz.rosetta.installDate
2021-02-17T09:14:57Z
ethz.rosetta.lastUpdated
2023-02-06T21:26:48Z
ethz.rosetta.versionExported
true
ethz.COinS
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