Patent application number | Description | Published |
20080243219 | MINIMALLY INVASIVE SYSTEMS FOR LOCATING AN OPTIMAL LOCATION FOR DEEP BRAIN STIMULATION - Systems for locating an optimal site within a brain of a patient for deep brain stimulation include a main cannula having an internal lumen, a guiding cannula having a bent distal end portion configured to pass through the lumen of the main cannula and guide a microelectrode into the brain, a depth adjustment mechanism configured to adjust an insertion depth of the guiding cannula, and a longitudinal angle adjustment device configured to adjust a longitudinal angle of the guiding cannula. The depth adjustment mechanism and longitudinal angle adjustment device adjust a position of the guiding cannula such that the microelectrode locates the optimal site for the deep brain stimulation. | 10-02-2008 |
20110029042 | LEAD ASSEMBLIES WITH ONE OR MORE SWITCHING NETWORKS - Exemplary lead assemblies include a lead body having a plurality of conductor wires embedded therein, a plurality of electrode contacts at least partially disposed on an outer surface of the lead body, and a plurality of switching networks each configured to control an operation of one or more of the plurality of electrode contacts. | 02-03-2011 |
20120221109 | CRANIAL BURR HOLE PLUG AND INSERTION TOOL - A cranial burr hole plug with an insertion tool and method of implantation is provided. The burr hole plug includes a shell; a collet interlocked within the shell; a clamp compressing the collet around an elongated medical device exiting the skull of a patient, such as a catheter or lead; and a cover over the clamp, collet, and shell. The insertion tool inserts the collet within the shell and locks the collet around the clamp. The method of implantation includes inserting the burr hole plug components in a cranial burr hole using the insertion tool and securing the exiting medical device without disturbing the position of the medical device. | 08-30-2012 |
20120259387 | LEAD ASSEMBLIES WITH ONE OR MORE SWITCHING NETWORKS - Exemplary lead assemblies include a lead body having a plurality of conductor wires embedded therein, a plurality of electrode contacts at least partially disposed on an outer surface of the lead body, and a plurality of switching networks each configured to control an operation of one or more of the plurality of electrode contacts. | 10-11-2012 |
20130237994 | MINIMALLY INVASIVE METHODS FOR LOCATING AN OPTIMAL LOCATION FOR DEEP BRAIN STIMULATION - Methods of locating an optimal site within a brain of a patient for deep brain stimulation include positioning a guiding cannula in a lumen of a main cannula, passing a microelectrode through a lumen of the guiding cannula into the brain, adjusting an insertion depth and a longitudinal angle of the guiding cannula such that the microelectrode locates the optimal site for the deep brain stimulation, and passing a distal end of a macroelectrode or a deep brain stimulation lead through the lumen of the main cannula and into the brain at the optimal site. | 09-12-2013 |
20130274820 | SYSTEMS AND METHODS FOR MAKING AND USING ELECTRICAL STIMULATION SYSTEMS WITH IMPROVED RF COMPATIBILITY - An implantable control module for an electrical stimulation system includes an electronic subassembly disposed in a casing. A sealed feedthrough housing is disposed along a portion of the casing. An electrically-conductive portion of the feedthrough housing is electrically coupled to an electrically-conductive portion of the casing. Feedthrough pins extend through the feedthrough housing and couple to the electronic subassembly via conductive pathways disposed in the casing. At least a portion of the conductive pathways extend along a non-conductive substrate. An RF-diverting assembly is disposed in the casing. The RF-diverting assembly includes a feedthrough ground electrically coupled to the electrically-conductive portion of the feedthrough housing. The RF-diverting assembly also includes a plurality of capacitive elements each coupling a different one of the plurality of conductive pathways to the feedthrough ground. | 10-17-2013 |
20150040391 | SYSTEMS AND METHODS FOR MAKING AND USING ELECTRICAL STIMULATION SYSTEMS WITH IMPROVED RF COMPATIBILITY - A method of forming a control module for an electrical stimulation system, the control module including an electronic subassembly disposed in an inner space of a casing and a feedthrough housing disposed along a portion of the casing, includes: forming an RF-diverting assembly having capacitive elements electrically-coupled to a feedthrough ground; electrically-coupling the capacitive elements to conductive pathways extending along a non-conductive substrate; electrically-coupling the conductive pathways to feedthrough pins extending through the feedthrough housing from a location external to the casing to a location within the inner space of the casing; electrically-coupling the conductive pathways to the electronic subassembly such that the conductive pathways electrically-couple the feedthrough pins to the electronic subassembly; electrically-coupling the feedthrough ground to an electrically-conductive portion of the feedthrough housing; and electrically-coupling the electrically-conductive portion of the feedthrough housing to an electrically-conductive portion of an outer surface of the casing. | 02-12-2015 |