1
Mark J Zdeblick, Timothy Robertson: Implantable zero-wire communications system. Proteus Digital Health, Bozicevic Field & Francis, Bret E Field, October 1, 2013: US08547248 (39 worldwide citation)

The present invention provides implantable systems that communicate wirelessly with each other using a unique format that enables devices configurations and applications heretofore not possible. Embodiments of the present invention provide communication apparatuses and methods for exchanging informa ...


2
Hooman Hafezi, Gregory Moon, Kityee Au Yeung, Robert Duck, Maria Casillas Holen: Pharmaceutical dosages delivery system. Proteus Digital Health, Bozicevic Field & Francis, Bret E Field, December 3, 2013: US08597186 (39 worldwide citation)

Pharmaceutical delivery systems for delivering dosages according to the present invention include a carrier component and a cap configured to seal an internal volume of the carrier component, wherein the cap includes a device that produces a unique current signature. Dosages prepared to be delivered ...


3
Olivier Colliou, Timothy Robertson, Mark Zdeblick: In-body device having a multi-directional transmitter. Proteus Digital Health, K&L Gates, January 13, 2015: US08932221 (34 worldwide citation)

Multi-directional transmitters for in-body devices, such as implantable and ingestible devices, are provided. Aspects of the in-body multi-direction transmitters of the invention include signal transmitters configured to transmit an identifying signal in at least two different directions in an x-y p ...


4
Hooman Hafezi, David O Reilly, Patricia Johnson, Zahedeh Hatamkhany, Timothy Robertson: Communication system incorporated in an ingestible product. Proteus Digital Health, Bozicevic Field & Francis, Bret E Field, September 16, 2014: US08836513 (34 worldwide citation)

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 electron ...


5
Lawrence Arne, Todd Thompson, Timothy Robertson, Robert Azevedo: Re-wearable wireless device. Proteus Digital Health, K&L Gates, September 13, 2016: US09439566 (31 worldwide citation)

A re-wearable wireless device includes a reusable component to be secured to a disposable component. The reusable component includes a sensor interface to receive signals from an electrode secured to a living subject and monitors physiological and physical parameters associated with the living subje ...


6
Todd Thompson, Olivier Colliou, Robert Duck, Yashar Behzadi: Wearable personal body associated device with various physical configurations. Proteus Digital Health, K&L Gates, September 13, 2016: US09439599 (19 worldwide citation)

A body associated device comprises a housing, an adhesive layer configured to be applied to a body of a living subject, and at least one standoff located between the housing and the adhesive layer. An electronic module may be located within the housing of the body associated device. A personal commu ...


7
Timothy Robertson, George Savage, Mark Zdeblick, Yashar Behzadi, Benedict Costello, Jeremy Frank, Hooman Hafezi, Tariq Haniff, David O Reilly: Ingestible event marker systems. Proteus Digital Health, Bret E Field, Bozicevic Field & Francis, October 14, 2014: US08858432 (18 worldwide citation)

Ingestible event marker systems that include an ingestible event marker (i.e., an IEM) and a personal signal receiver are provided. Embodiments of the IEM include an identifier, which may or may not be present in a physiologically acceptable carrier. The identifier is characterized by being activate ...


8
Yafei Bi, Haifeng Li, Mark Zdeblick, Todd Thompson, Robert Leichner: Integrated circuit implementation and fault control system, device, and method. Proteus Digital Health, Bozicevic Field & Francis, Bret E Field, June 25, 2013: US08473069 (15 worldwide citation)

Apparatus and methods enable robust, reliable control for implantable medical devices, including cardiac pacemakers, defibrillators and cardiac resynchronization devices. Integrated circuits in the devices have minimized interfaces, can derive power from the interface signals, and have high voltage ...


9
Timothy Robertson, Mark Zdeblick: In-body device having deployable antenna. Proteus Digital Health, K&L Gates, February 23, 2016: US09270025 (14 worldwide citation)

Deployable antennas for in-body devices, such as implantable and ingestible devices, are provided. Aspects of the in-body deployable antennas of the invention include antennas configured to go from a first configuration to a second configuration following placement in a living body, e.g., via ingest ...


10
Hooman Hafezi, Raymond Schmidt: Ingestible device with pharmaceutical product. Proteus Digital Health, K&L Gates, August 18, 2015: US09107806 (14 worldwide citation)

A system and a manufacturing process are disclosed in accordance with the present invention that protect an electronic device and allows for placement or combination of the device within a pharmaceutical product or capsule. The system includes circuitry and components that can be placed within certa ...