1
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 ...


2
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 ...


3
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 ...


4
Albrecht Thomas R, Zdeblick Mark J, Quate Calvin F: An integrated mass storage device. The Board Of Trustees Of The Leland Stanford Junio, Albrecht Thomas R, Zdeblick Mark J, Quate Calvin F, EGAN William J, August 10, 1989: WO/1989/007256

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 ...


5
BERBERICH Joy, ZDEBLICK Mark J: APPLICATION EN RÉSEAU COMPORTANT UN DÉTECTEUR PHYSIOLOGIQUE, NETWORKED APPLICATION WITH A PHYSIOLOGICAL DETECTOR. PROTEUS BIOMEDICAL, BERBERICH Joy, ZDEBLICK Mark J, FIELD Bret E, May 10, 2012: WO/2012/061420

The present invention provides receiving devices and method for use with gaming pursuits, including, in one aspect, a plurality of receivers to communicate physiologic data, at least one hub to receive the physiologic data, and a gaming module to receive, directly or indirectly, the physiologic data ...


6
Zdeblick Mark J: Spread spectrum electric tomography. Proteus Biomedical, Zdeblick Mark J, FIELD Bret, January 15, 2009: WO/2009/009746

Methods for locating a sensor element in vivo, e.g., during evaluation of tissue motion, such as of a cardiac tissue motion, e.g., heart wall motion, via electric tomography are provided. In the subject methods, an electric field is applied to a subject in a manner such that the sensing element is p ...


7
Li Haifeng, Zdeblick Mark J, Arne Lawrence, Bi Yafei, Jani Nilay, Withrighton Jonathan: Self-referencing communication in implantable devices. Proteus Biomedical, Li Haifeng, Zdeblick Mark J, Arne Lawrence, Bi Yafei, Jani Nilay, Withrighton Jonathan, FIELD Bret, March 5, 2009: WO/2009/029894

Various aspects of the present invention enable robust, reliable control functionality for effectors present on intraluminal, e.g., vascular leads, as well as other types of implantable devices. Aspects of the invention include implantable integrated circuits that have self-referencing and self-cloc ...


8
THOMPSON Todd, ZDEBLICK Mark J, BEHZADI Yashar, COSTELLO Benedict, ROBERTSON Timothy, HAFEZI Hooman, SAVAGE George: [fr] SYSTÈME DE COMMUNICATION UTILISANT UN DISPOSITIF IMPLANTABLE, [en] COMMUNICATION SYSTEM USING AN IMPLANTABLE DEVICE. THOMPSON Todd, ZDEBLICK Mark J, BEHZADI Yashar, COSTELLO Benedict, ROBERTSON Timothy, HAFEZI Hooman, SAVAGE George, PROTEUS BIOMEDICAL, FIELD Bret E, January 17, 2013: WO/2013/009779

[en] The system of the present invention includes an implantable device that can detect high and low frequency current signature. The implantable device can communicate with a communication device that includes a conductive element, an electronic component, and a partial power source in the form of ...


9
BERKMAN Jeffrey, ZDEBLICK Mark J, JOHNSON Patricia, HAFEZI Hooman, WITHRINGTON Jonathan: [fr] SYSTÈME DE COMMUNICATION À ACTIVATION À DISTANCE, [en] COMMUNICATION SYSTEM WITH REMOTE ACTIVATION. BERKMAN Jeffrey, ZDEBLICK Mark J, JOHNSON Patricia, HAFEZI Hooman, WITHRINGTON Jonathan, PROTEUS DIGITAL HEALTH, FIELD Bret E, January 17, 2013: WO/2013/009781

[en] The system of the present invention includes a conductive element, an electronic component, and a partial power source in the form of dissimilar materials. Upon contact with a conducting fluid, a voltage potential is created and the power source is completed, which activates the system. The ele ...


10
WHITWORTH Adam, ZDEBLICK Mark J: [fr] SYSTÈME DE COMMUNICATION AYANT DE MULTIPLES SOURCES DALIMENTATION, [en] COMMUNICATION SYSTEM WITH MULTIPLE SOURCES OF POWER. PROTEUS DIGITAL HEALTH, WHITWORTH Adam, ZDEBLICK Mark J, FIELD Bret E, January 17, 2013: WO/2013/009777

[en] The system of the present invention includes a conductive element, an electronic component, and a partial power source in the form of dissimilar materials. Upon contact with a conducting fluid, a voltage potential is created and the power source is completed, which activates the system. The ele ...