Patent application number | Description | Published |
20090082832 | Thermal Management of Implantable Medical Devices - Systems and techniques for thermal management of implantable medical devices. In one aspect, an implantable device adapted for implantation in a body includes a conductor component that conducts an electrical current in response to the body in which that implantable device is implanted being subjected to an alternating electromagnetic field and a thermal management component in thermal contact with the conductor component and configured to manage excess heat generated by the conduction of the electrical current. The thermal management component comprises a material that undergoes a phase transition at a temperature above the temperature of the body in which the implantable device is adapted to be implanted. | 03-26-2009 |
20090112272 | CONNECTOR ASSEMBLIES FOR IMPLANTABLE STIMULATORS - Exemplary systems include a stimulator configured to be implanted within a patient, the stimulator having a body defined by at least one side surface disposed in between distal and proximal end surfaces, and a connector assembly configured to be coupled to the stimulator and extend parallel to the at least one side surface of the stimulator. The connector assembly is further configured to facilitate removable coupling of a lead having one or more electrodes disposed thereon to the stimulator. | 04-30-2009 |
20090112327 | BURR HOLE PLUG DESIGNS - A burr hole plug comprises a plug base including a flange configured for being mounted around a burr hole, an aperture through which an elongated medical device may pass, and tabs configured for extending within the cranial burr hole to center the plug base relative to the cranial burr hole. The burr hole plug further comprises a retainer configured for being mounted within the aperture of the plug base to secure the medical device. A method may comprise locating the plug base within a burr hole, such that the tabs are disposed within the burr hole to center the plug base relative to the cranial burr hole, introducing the elongated medical device through the cranial burr hole and into the brain tissue of the patient, mounting the retainer within the aperture of the plug base, and actuating the retainer to secure the medical device. | 04-30-2009 |
20090125088 | Implanting Medical Devices - Systems and techniques for implanting medical devices. In one aspect, an apparatus includes a flexible base member that can be flexed manually to conform to a contour of an anatomy, the base member including a radioscopic indicium that has a characteristic such that, under radioscopic imaging, passage of a skin-penetrating electromagnetic radiation is hindered to an extent that is distinguishable from a hindrance of the electromagnetic radiation by another portion of the base member. | 05-14-2009 |
20090192555 | FIXATION OF IMPLANTABLE PULSE GENERATORS - Systems and techniques for improving the fixation of implantable pulse generators. In one aspect, a device includes an implantable pulse generator that comprises electrical circuitry configured to generate an electrical pulse and a biocompatible casing that houses the electrical circuitry and on which a collection of electrodes and a collection of fixation elements are mounted. The electrodes are in electrical contact with the electrical circuitry and the fixation elements increase the surface area of the biocompatible casing to reduce the likelihood that the biocompatible casing shifts after implantation; | 07-30-2009 |
20090192557 | METHODS AND SYSTEMS OF TREATING PANCREATITIS PAIN CAUSED BY SPHINCTER OF ODDI DYSFUNCTION - Methods and systems of treating a patient with pancreatitis pain include providing a stimulator, configuring one or more stimulation parameters to control sphincter of Oddi function, programming the stimulator with the one or more stimulation parameters, generating a stimulus configured to control sphincter of Oddi function with the stimulator in accordance with the one or more stimulation parameters, and applying the stimulus with the stimulator to one or more stimulation sites in accordance with the one or more stimulation parameters. | 07-30-2009 |
20090192558 | METHODS AND SYSTEMS OF TREATING PANCREATITIS PAIN - Methods and systems of treating a patient with pancreatitis pain include providing a stimulator, configuring one or more stimulation parameters to treat pancreatitis pain, programming the stimulator with the one or more stimulation parameters, generating a stimulus configured to treat pancreatitis pain with the stimulator in accordance with the one or more stimulation parameters, and applying the stimulus with the stimulator to one or more stimulation sites in accordance with the one or more stimulation parameters. | 07-30-2009 |
20090192568 | METHODS AND SYSTEMS FOR TREATING SEIZURES CAUSED BY BRAIN STIMULATION - Methods for treating seizures caused by brain stimulation include providing a stimulator, programming the stimulator with one or more stimulation parameters configured to treat a medical condition, applying at least one stimulus with the stimulator to a stimulation site within the brain of a patient in accordance with the one or more stimulation parameters, and monitoring the patient for a seizure caused by the at least one stimulus. | 07-30-2009 |
20090192575 | THERMAL MANAGEMENT OF IMPLANTABLE MEDICAL DEVICES - Systems and techniques for thermal management of implantable medical devices. In one aspect an implantable device includes an active component configured to perform medical activities, a charging component configured to convert energy from outside a body in which the implantable device is implanted into potential energy, and a thermal barrier between the charging component and the active portion. The thermal barrier thermally isolates the charging component from the active portion so that thermal resistance between the charging component and the active component is above the thermal resistance between the charging component and the body. | 07-30-2009 |
20090248095 | ANCHORING UNITS FOR LEADS OF IMPLANTABLE ELECTRIC STIMULATION SYSTEMS AND METHODS OF MAKING AND USING - A nerve stimulation lead has a distal end, a proximal end, and a longitudinal length. The nerve stimulation lead includes a plurality of electrodes disposed at the distal end, a plurality of terminals disposed at the proximal end, and a plurality of conductive wires electrically coupling the plurality of electrodes electrically to the plurality of terminals. The nerve stimulation lead also includes at least one anchoring unit disposed on the nerve stimulation lead. The at least one anchoring unit is configured and arranged for anchoring the nerve stimulation lead against a bony structure. | 10-01-2009 |
20100145357 | BURR HOLE PLUG HAVING DUAL SLIDABLE CLAMPING MECHANISMS - A burr hole plug comprises a plug base configured for being mounted around a burr hole. The plug base includes an aperture through which an elongated medical device exiting the burr hole may pass. The burr hole plug further comprises a retainer configured for being mounted within the aperture of the plug base. The retainer further includes first and second slidable clamping mechanisms configured for securing the medical devices therebetween within the aperture of the plug base. A method comprises introducing the medical device through the burr hole, mounting a plug base around the burr hole, such that the medical device extends through the plug base aperture, mounting the retainer within the aperture of the plug base, and sliding the first and second clamping mechanisms secure the medical device therebetween. | 06-10-2010 |
20100331917 | MOLDABLE CHARGER WITH SUPPORT MEMBERS FOR CHARGING AN IMPLANTABLE PULSE GENERATOR - Electrical energy is transcutaneously transmitted from an external charger to an implanted medical device. The external charger includes a charging head that is selectively shaped to conform to the surface of a patient to enhance charge efficiency and patient comfort. The charging head has a plurality of malleable support members extending through the charging head for affixing the flexible charging head in the selected shape, while the flexible charging head conforms to the surface of the patient. The charging head may also include one or more sensors for determining the shape of a charging coil in the charging head, which cause the charge of the coil to be adjusted based on the coil shape. | 12-30-2010 |
20100331918 | MOLDABLE CHARGER WITH CURABLE MATERIAL FOR CHARGING AN IMPLANTABLE PULSE GENERATOR - Electrical energy is transcutaneously transmitted from an external charger to an implanted medical device. The external charger includes a charging head comprising a flexible material that is selectively shaped to conform to the surface of a patient to enhance charge efficiency and patient comfort. The flexible material is curable to become inflexible and embody a fixed shape and may comprise, for example, a thermoplastic for being re-shaped and re-cured multiple times, or a thermoset plastic that maintains a permanent shape and cannot be re-cured to form another shape. The charging head may also include one or more sensors for determining the shape of a charging coil in the charging head, which cause the charge of the coil to be adjusted based on the coil shape. | 12-30-2010 |
20100331919 | MOLDABLE CHARGER HAVING HINGED SECTIONS FOR CHARGING AN IMPLANTABLE PULSE GENERATOR - Electrical energy is transcutaneously transmitted from an external charger to an implanted medical device. The external charger includes a charging head comprising a plurality of pivotable hinged sections for selectively shaping the charging head to conform to a surface of a patient. The external charger further includes an alternating current (AC) charging coil housed in the charging head for transcutaneously transmitting electrical energy to the implanted medical device. The charging head may also include one or more sensors for determining the shape of a charging coil in the charging head, which cause the charge of the coil to be adjusted based on the coil shape. | 12-30-2010 |
20100331920 | MOLDABLE CHARGER WITH SHAPE-SENSING MEANS FOR AN IMPLANTABLE PULSE GENERATOR - Electrical energy is transcutaneously transmitted from an external charger to an implanted medical device. The external charger includes a charging head that is selectively shapeable to conform to the surface of a patient to enhance charge efficiency and patient comfort. An alternating current charging coil is housed in the charging head and configured for transcutaneously transmitting electrical energy to the implanted medical device. The shape of the coil is changeable as the charging head is shaped, and at least one sensor determines changes in the shape of the charging coil and causes the charge of the coil to be adjusted based on the coil shape. | 12-30-2010 |
20100331933 | MICROSTIMULATOR WITH FLAP ELECTRODES - An implantable microstimulator includes an elongate casing, a flap coupled directly to the casing, and electrodes attached to the flap such that the electrodes extend laterally relative to the longitudinal axis of the casing. The electrodes are coupled to active circuitry that is housed within the casing. Due to the lateral arrangement of the electrodes relative to the casing, effective operation of the microstimulator may still occur even after the microstimulator migrates away from the target stimulation site. Since there are not any leads associated with the microstimulator, the entire microstimulator, including the electrodes and the casing, is implanted adjacent to the target stimulation site. The electrodes may be configured for mono-polar or multi-polar stimulation. In one example, the microstimulator includes an insulative coating on the casing and the coating and the flap are contiguous. | 12-30-2010 |
20110295330 | ANCHORING UNITS FOR LEADS OF IMPLANTABLE ELECTRIC STIMULATION SYSTEMS AND METHODS OF MAKING AND USING - A nerve stimulation lead has a distal end, a proximal end, and a longitudinal length. The nerve stimulation lead includes a plurality of electrodes disposed at the distal end, a plurality of terminals disposed at the proximal end, and a plurality of conductive wires electrically coupling the plurality of electrodes electrically to the plurality of terminals. The nerve stimulation lead also includes at least one anchoring unit disposed on the nerve stimulation lead. The at least one anchoring unit is configured and arranged for anchoring the nerve stimulation lead against a bony structure. | 12-01-2011 |
20120271393 | ANCHORING UNITS FOR LEADS OF IMPLANTABLE ELECTRIC STIMULATION SYSTEMS AND METHODS OF MAKING AND USING - A nerve stimulation lead has a distal end, a proximal end, and a longitudinal length. The nerve stimulation lead includes a plurality of electrodes disposed at the distal end, a plurality of terminals disposed at the proximal end, and a plurality of conductive wires electrically coupling the plurality of electrodes electrically to the plurality of terminals. The nerve stimulation lead also includes at least one anchoring unit disposed on the nerve stimulation lead. The at least one anchoring unit is configured and arranged for anchoring the nerve stimulation lead against a bony structure. | 10-25-2012 |
20130046361 | MOLDABLE CHARGER WITH SHAPE-SENSING MEANS FOR AN IMPLANTABLE PULSE GENERATOR - Electrical energy is transcutaneously transmitted from an external charger to an implanted medical device. The external charger includes a charging head that is selectively shapeable to conform to the surface of a patient to enhance charge efficiency and patient comfort. An alternating current charging coil is housed in the charging head and configured for transcutaneously transmitting electrical energy to the implanted medical device. The shape of the coil is changeable as the charging head is shaped, and at least one sensor determines changes in the shape of the charging coil and causes the charge of the coil to be adjusted based on the coil shape. | 02-21-2013 |
20130123893 | CONNECTOR ASSEMBLIES FOR IMPLANTABLE STIMULATORS - Exemplary systems include a stimulator configured to be implanted within a patient, the stimulator having a body defined by at least one side surface disposed in between distal and proximal end surfaces, and a connector assembly configured to be coupled to the stimulator and extend parallel to the at least one side surface of the stimulator. The connector assembly is further configured to facilitate removable coupling of a lead having one or more electrodes disposed thereon to the stimulator. | 05-16-2013 |
20140155957 | CONNECTOR ASSEMBLIES FOR IMPLANTABLE STIMULATORS - Exemplary systems include a stimulator configured to be implanted within a patient, the stimulator having a body defined by at least one side surface disposed in between distal and proximal end surfaces, and a connector assembly configured to be coupled to the stimulator and extend parallel to the at least one side surface of the stimulator. The connector assembly is further configured to facilitate removable coupling of a lead having one or more electrodes disposed thereon to the stimulator. | 06-05-2014 |
20140243945 | BURR HOLE PLUG DESIGNS - The burr hole plug comprises a plug base configured for being mounted around a burr hole, and having an aperture through which an elongated medical device exiting the burr hole may pass. The burr hole plug further comprises a retainer configured for being mounted within the plug base aperture. The retainer includes a retainer support, a slot formed in the retainer support for receiving the medical device, and a clamping mechanism having a clamping bar and a flange slidably engaged with the retainer support to laterally slide the clamping bar to secure the medical device. A method comprises introducing the medical device through the burr hole, mounting the plug base around the burr hole, mounting the retainer within the plug base aperture, receiving the medical device into the slot, and sliding the slidable flange relative to the retainer support to laterally slide to secure the medical device. | 08-28-2014 |
20140343631 | CONNECTOR ASSEMBLIES FOR IMPLANTABLE STIMULATORS - Exemplary systems include a stimulator configured to be implanted within a patient, the stimulator having a body defined by at least one side surface disposed in between distal and proximal end surfaces, and a connector assembly configured to be coupled to the stimulator and extend parallel to the at least one side surface of the stimulator. The connector assembly is further configured to facilitate removable coupling of a lead having one or more electrodes disposed thereon to the stimulator. | 11-20-2014 |