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Robertson Timothy, Zdeblick Mark J: Multi-mode communication ingestible event markers and systems, and methods of using the same. Proteus Biomedical, Robertson Timothy, Zdeblick Mark J, FIELD Bret, September 11, 2009: WO/2009/111664 (74 worldwide citation)

Aspects of the invention include multi-mode communication ingestible event marker devices. Ingestible event marker devices of the invention include an ingestible component comprising a conductive communication module and at least one additional non-conductive communication module. The non-conductive ...


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Zdeblick Mark J, Costello Benedict, Frank Jeremy, Jensen Marc, Thompson Todd, Islam Mohammed Z: Void-free implantable hermetically sealed structures. Proteus Biomedical, Zdeblick Mark J, Costello Benedict, Frank Jeremy, Jensen Marc, Thompson Todd, Islam Mohammed Z, FIELD Bret E, October 25, 2007: WO/2007/120884 (20 worldwide citation)

An implantable integrated circuit structure comprising a conformal thin-film sealing layer for hermetically sealing circuitry layers is provided. Also disclosed are electrode structures, leads that include the same, implantable pulse generators that include the leads, as well as systems and kits hav ...


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Albrecht Thomas R, Zdeblick Mark J: Integrated scanning tunneling microscope.. Univ Leland Stanford Junior, January 2, 1991: EP0404799-A1 (3 worldwide citation)

A mass memory device is formed by combining a piezoelectric bimorph cantilever (214) with a recording surface (212) having a number of storage locations to and from which digital information is transferred using a scanning tunneling microscope or an atomic force microscope mode of operation. Control ...


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ZDEBLICK Mark J, IONESCU Arna Diana, MCALLISTER William, AU YEUNG Kit Yee: DISPOSITIF DE COMMUNICATION MOBILE, SYSTÈME ET PROCÉDÉ, MOBILE COMMUNICATION DEVICE, SYSTEM, AND METHOD. PROTEUS DIGITAL HEALTH, ZDEBLICK Mark J, IONESCU Arna Diana, MCALLISTER William, AU YEUNG Kit Yee, FIELD Bret E, January 24, 2013: WO/2013/012869 (2 worldwide citation)

A mobile device for detecting an electrical signal generated by an ingestible event marker is disclosed. The mobile device includes a detection subsystem to receive an electrical signal generated by an ingestible event marker from a detection arrangement. A processing subsystem is coupled to the det ...


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Albrecht Thomas R, Zdeblick Mark J: A piezoelectric motion transducer and an integrated scanning tunneling microscope using the same.. Univ Leland Stanford Junior, November 22, 1990: EP0397799-A1 (1 worldwide citation)

A mass memory device is formed by combining a piezoelectric bimorph cantilever (214) with a recording surface (212) having a number of storage locations to and from which digital information is transferred using a scanning tunneling microscope or an atomic force microscope mode of operation. Control ...


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ZDEBLICK MARK J, COSTELLO BENEDICT, FRANK JEREMY, JENSEN MARC, THOMPSON TODD, ISLAM MOHAMMED Z: Structures hermétiques implantables sans vide, Lückenfreie implantierbare, hermetisch verschlossene Strukturen, Void-free implantable hermetically sealed structures. PROTEUS DIGITAL HEALTH, November 7, 2012: EP2520331-A2

An implantable integrated circuit structure comprising a conformal thin-film sealing layer for hermetically sealing circuitry layers is provided. Also disclosed are electrode structures, leads that include the same, implantable pulse generators that include the leads, as well as systems and kits hav ...


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ROBERTSON TIMOTHY , ZDEBLICK MARK J : [de] VERZEHRBARE MARKER UND SYSTEM FÜR MULTIMODALE KOMMUNIKATIONSEREIGNISSE, [en] MULTI-MODE COMMUNICATION INGESTIBLE EVENT MARKERS AND SYSTEMS, [fr] MARQUEURS ET SYSTÈMES DÉVÉNEMENT DE COMMUNICATION MULTIMODE INGÉRABLES. PROTEUS DIGITAL HEALTH  , October 25, 2017: EP3235491-A1

[en] Aspects of the invention include multi-mode communication ingestible event marker devices. Ingestible event marker devices of the invention include an ingestible component comprising a conductive communication module and at least one additional non-conductive communication module. The non-condu ...


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Albrecht Thomas R, Zdeblick Mark J, Quate Calvin F: An integrated mass storage device.. Univ Leland Stanford Junior, January 16, 1991: EP0407460-A1

A mass memory device is formed by combining a piezoelectric bimorph cantilever (214) with a recording surface (212) having a number of storage locations to and from which digital information is transferred using a scanning tunneling microscope or an atomic force microscope mode of operation. Control ...


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