Patent application number | Description | Published |
20090013791 | PRESSURE SENSOR CIRCUITS - Implantable pressure sensors and methods for making and using the same are provided. A feature of embodiments of the subject pressure sensors is that they are low-drift sensors. The subject sensors find use in a variety of applications. | 01-15-2009 |
20090062879 | SELF-REFERENCING COMMUNICATION IN IMPLANTABLE DEVICES - 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-clocking signal encoding, and are capable of bidirectional communication. Also provided by the invention are effector assemblies that include the integrated circuits, as well as implantable medical devices, e.g., pulse generators that include the same, as well as systems and kits thereof and methods of using the same, e.g., in pacing applications, including cardiac resynchronization therapy (CRT) applications. | 03-05-2009 |
20090062880 | SELF-REFERENCING COMMUNICATION IN IMPLANTABLE DEVICES - 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-clocking signal encoding, and are capable of bidirectional communication. Also provided by the invention are effector assemblies that include the integrated circuits, as well as implantable medical devices, e.g., pulse generators that include the same, as well as systems and kits thereof and methods of using the same, e.g., in pacing applications, including cardiac resynchronization therapy (CRT) applications. | 03-05-2009 |
20100131023 | IMPLANTABLE MEDICAL DEVICES COMPRISING CATHODIC ARC PRODUCED STRUCTURES - Implantable medical devices that include cathodic arc produced structures are provided. Cathodic arc produced structures of the invention may be thick, stress-free metallic structures that have configurations heretofore not available in implantable medical devices. In yet other embodiments, the structures may be crenulated or porous layers. Also provided are methods of producing implantable medical devices as well as systems for practicing the subject methods. | 05-27-2010 |
20100204766 | IMPLANTABLE INTEGRATED CIRCUIT - Embodiments 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. Embodiments of the invention enable the required functionality for accurate long term control of effectors units, even ones present on multiplex carrier configurations, while provide for low power consumption. Aspects of the invention include implantable integrated circuits that have power extraction; energy storage; communication; and device configuration functional blocks, where these functional blocks are all present in a single integrated circuit on an intraluminal-sized support. Also provided by the invention are effector assemblies that include the integrated circuits, as well as implantable medical devices, e.g., pulse generators that include the same, as well as systems and kits thereof and methods of using the same, e.g., in pacing applications, including cardiac resynchronization therapy (CRT) applications. | 08-12-2010 |
20100280366 | CONTINUOUS FIELD TOMOGRAPHY SYSTEMS AND METHODS OF USING THE SAME - Continuous field tomography systems are provided. Aspects of systems include a data aggregating module configured to receive both continuous field tomography data and non-continuous field physiological data and produce an aggregated data product from these disparate types of data. Also provided are methods of using systems of the invention in a variety of different applications, including diagnostic and therapeutic applications. The systems and methods of the invention find use in a variety of different applications, such as cardiac related applications. | 11-04-2010 |
20100312188 | Body-Associated Receiver and Method - Receivers, which may be external or implantable, are provided. Aspects of receivers of the invention include the presence of one or more of: a high power-low power module; an intermediary module; a power supply module configured to activate and deactivate one or more power supplies to a high power processing block; a serial peripheral interface bus connecting master and slave blocks; and a multi-purpose connector. Receivers of the invention may be configured to receive a conductively transmitted signal. Also provided are systems that include the receivers, as well as methods of using the same. Additionally systems and methods are disclosed for using a receiver for coordinating with dosage delivery systems. | 12-09-2010 |
20100316158 | ACTIVE SIGNAL PROCESSING PERSONAL HEALTH SIGNAL RECEIVERS - The invention provides a receiver associated with a body, e.g., located inside or within close proximity to a body, configured to receive and decode a signal from an in vivo transmitter which located inside the body. Signal receivers of the invention provide for accurate signal decoding of a low-level signal, even in the presence of significant noise, using a small-scale chip, e.g., where the chip consumes very low power. Also provided are systems that include the receivers, as well as methods of using the same. | 12-16-2010 |
20110009715 | INGESTIBLE EVENT MARKER DATA FRAMEWORK - The ingestible event marker data framework provides a uniform, comprehensive framework to enable various functions and utilities related to ingestible event marker data (IEM data). The functions and utilities include data and/or information having an aspect of data derived from, collected by, aggregated by, or otherwise associated with, an ingestion event. | 01-13-2011 |
20110022113 | Analyzer Compatible Communication Protocol - Methods and systems for programming a plurality of leads under at least two distinct modalities are provided. The leads may be grouped within satellites and multiple satellites may be configured within a single lead. Each lead includes a power and communications bus providing commands, and information and pulses to the satellites. The leads may be connected to at least two different command and pulse sources, optionally a cardiac pacemaker and/or a cardiac pulse analyzer system. A command may include or be preceded by a wake-up pulse that facilitates identification of a modality applicable to the associated command and data. A command may further optionally include a reference pulse or series of reference pulses, whereby the satellite references data pulses in relation to one or more aspects of the associated reference pulse. A data pulse may deliver two bits of information. | 01-27-2011 |
20120101430 | Body-Associated Receiver and Method - Receivers, which may be external or implantable, are provided. Aspects of receivers of the invention include the presence of one or more of: a high power-low power module; an intermediary module; a power supply module configured to activate and deactivate one or more power supplies to a high power processing block; a serial peripheral interface bus connecting master and slave blocks; and a multi-purpose connector. Receivers of the invention may be configured to receive a conductively transmitted signal. Also provided are systems that include the receivers, as well as methods of using the same. Additionally systems and methods are disclosed for using a receiver for coordinating with dosage delivery systems. | 04-26-2012 |