Patent application number | Description | Published |
20080255630 | Connecting Apparatus And Methods - Included herein, amongst other things, is a stimulation lead adapter. The stimulation lead adapter can include a stimulation lead socket configured to electrically engage and retain the proximal end of a stimulation lead. The stimulation lead adapter can also include an adapter plug configured to electrically engage a stimulation lead port of an implantable medical device. The stimulation lead adapter can also include a connector configured to provide electrical communication between the stimulation lead socket and the adapter plug. In an embodiment, the invention includes an implantable cardiac rhythm management device configured to perform at least one pacing system analyzer function. In an embodiment, the invention includes a programmer system for an implantable medical device, the programmer system configured to display pacing system analyzer function data within a single tabbed window of a graphical user interface. Other aspects and embodiments are also provided herein. | 10-16-2008 |
20090123825 | BATTERIES INCLUDING A FLAT PLATE DESIGN - A battery having flat, stacked, anode and cathode layers. The battery can be adapted to fit within an implantable medical device. | 05-14-2009 |
20100203380 | BATTERIES INCLUDING A FLAT PLATE DESIGN - A battery having flat, stacked, anode and cathode layers. The battery can be adapted to fit within an implantable medical device. | 08-12-2010 |
20100274230 | Axial-Force Limiting Torque Wrench for Use with Implantable Medical Devices - Embodiments of the invention are related to tools for coupling leads to header assemblies for implantable medical devices, amongst other things. A wrench is configured so that if an axial force exceeding a first threshold is applied to a handle housing, then the housing handle will rotate with respect to a shaft. Other embodiments are also included herein. | 10-28-2010 |
20100274309 | HOUSINGS FOR IMPLANTABLE MEDICAL DEVICES AND METHODS FOR FORMING HOUSINGS - Described herein is an implantable medical device and methods for making a device that includes a metal housing a molding process. In one embodiment, the housing includes a header attachment element extends from the housing. In another embodiment, the implantable medical device includes a header attachment surface comprising one or more header retaining features configured to secure a connector header to the header attachment surface. In another embodiment, the housing includes one or more structural elements extending from and integrally molded with the interior surface of the first or second portions of the housing. Also disclosed are methods of making the implantable medical device. | 10-28-2010 |
20100318156 | HEADER ASSEMBLIES FOR IMPLANTABLE MEDICAL DEVICES - Embodiments of the invention are related to header assemblies for implantable medical devices, amongst other things. In an embodiment the invention includes a medical device including a header assembly housing. The header assembly housing can include a dielectric material, the header assembly housing can define a port aperture for receiving a connector pin of a stimulation lead. The port aperture can have a first end and a second end and a reflective insert disposed within the header assembly housing proximate to the second end. The reflective insert can be configured to enhance the view of the second end from outside of the header assembly housing. Other embodiments are also included herein. | 12-16-2010 |
20110082531 | SIDE MOUNT FEEDTHROUGH SYSTEM FOR SEALED COMPONENTS - The present subject matter provides apparatus and methods for manufacturing an encasement for a component of an implantable medical device having a main circuit board. The method includes forming an encasement aperture on a lateral side of the encasement. The lateral side of the encasement is adapted to be placed substantially parallel to a surface of the main circuit board. A feedthrough assembly is connected through the encasement aperture. The feedthrough assembly includes at least one terminal conductor at least partially passing through the encasement aperture. | 04-07-2011 |
20110098763 | VENTED SET SCREW FOR IMPLANTABLE MEDICAL DEVICE - A vented set screw is used to secure a connection between an implantable medical device and an implantable lead. The vented set screw includes one or more venting channels that allow liquid and/or gas to flow out of the implantable medical device when the implantable lead is being inserted into the implantable medical device and secured during an implantation procedure. This prevents pressure from building up at the connection, thereby ensuring proper performance of sensing and/or therapy delivery functions of the implantable medical device. | 04-28-2011 |
20110230923 | FEEDTHROUGH SYSTEM FOR IMPLANTABLE DEVICE COMPONENTS - The present subject matter provides feedthrough or interconnect systems for components of an implantable medical device and methods for their manufacture. A feedthrough system includes a wire or nailhead having a protruded tip. The wire or nailhead extends from an aperture in an encasement of a first component and is connected to a terminal conductor adapted to electrically connect to circuitry within the encasement. A ribbon wire has a distal end adapted to electrically connect to a second component and a proximal end having a pattern adapted to fit to the protruded tip of the wire or nailhead to provide for subsequent attachment of the ribbon wire to the nailhead. | 09-22-2011 |
20120271387 | CANTILEVERED SPRING CONTACT FOR AN IMPLANTABLE MEDICAL DEVICE - Some examples of an electrical contact spring for an implantable medical device includes a housing, rigid and tubular in shape, defining a housing passage extending along a longitudinal axis, from a proximal portion including a proximal lip that defines a proximal opening, to a distal portion including a distal lip that defines a distal opening and a spring disposed in the housing, the spring tubular in shape and defining a spring passage concentric to the housing passage, the spring including: a distal ring portion disposed adjacent the distal portion of the housing and physically coupled to the housing, a plurality of spring elements coupled to and extending from the distal ring portion toward the proximal portion of the housing and a proximal ring portion disposed adjacent the proximal portion of the housing, cantilevered and suspended inside of and spaced apart from the housing by the plurality of spring elements. | 10-25-2012 |
20140075752 | FEEDTHROUGH SYSTEM FOR IMPLANTABLE DEVICE COMPONENTS - The present subject matter provides feedthrough or interconnect systems for components of an implantable medical device and methods for their manufacture. A feedthrough system includes a wire or nailhead having a protruded tip. The wire or nailhead extends from an aperture in an encasement of a first component and is connected to a terminal conductor adapted to electrically connect to circuitry within the encasement. A ribbon wire has a distal end adapted to electrically connect to a second component and a proximal end having a pattern adapted to fit to the protruded tip of the wire or nailhead to provide for subsequent attachment of the ribbon wire to the nailhead. | 03-20-2014 |
20140207222 | HOUSINGS FOR IMPLANTABLE MEDICAL DEVICES AND METHODS FOR FORMING HOUSINGS - Described herein is an implantable medical device and methods for making a device that includes a metal housing a molding process. In one embodiment, the housing includes a header attachment element extends from the housing. In another embodiment, the implantable medical device includes a header attachment surface comprising one or more header retaining features configured to secure a connector header to the header attachment surface. In another embodiment, the housing includes one or more structural elements extending from and integrally molded with the interior surface of the first or second portions of the housing. Also disclosed are methods of making the implantable medical device. | 07-24-2014 |