Patent application number | Description | Published |
20080243220 | LEAD ANCHOR FOR IMPLANTABLE STIMULATION DEVICES - Disclosed is a lead anchor comprising a body made of an elastomeric material and defining a first opening and a second opening through which a lead can pass, one or more fasteners disposed within the body, with the ends of the fasteners protruding from the body, wherein the ends are configured and arranged to be clamped down to secure a lead passing through the body. | 10-02-2008 |
20090012591 | LEAD WITH CONTACTS FORMED BY COILED CONDUCTOR AND METHODS OF MANUFACTURE AND USE - A lead includes an elongated lead body of non-conductive material and a plurality of conductive wires. Each wire has a first portion disposed within the lead body and a second portion extending out of the lead body. The second portion is coiled around the lead body to form a contact on the outer surface of the lead. | 01-08-2009 |
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 |
20090187222 | STEERABLE STYLET HANDLE ASSEMBLY - An exemplary steerable stylet handle assembly includes a housing having first and second side walls defining a channel therebetween, a button in communication with the first and second side walls and configured to move distally and proximally within the channel, and a stylet subassembly having an inner stylet wire located at least partially within an outer tubing. The inner stylet wire has a pre-curved portion and is coupled to a proximal portion of the housing. The outer tubing is coupled to the button. Movement of the button within the channel is configured to selectively expose and cover at least a portion of the pre-curved distal portion of the inner stylet wire with the outer tubing. | 07-23-2009 |
20090198312 | LEAD WITH LEAD STIFFENER FOR IMPLANTABLE ELECTRICAL STIMULATION SYSTEMS AND METHODS OF MAKING AND USING - A lead includes a plurality of electrodes disposed on the distal end of the lead, a plurality of contact terminals disposed on the proximal end of the lead, a plurality of conductor wires extending along the lead to couple the electrodes electrically to the contact terminals, a central lumen defined by the lead and extending from the proximal end of the lead towards the distal end of the lead, and a tubular stiffener disposed in the proximal end of the central lumen. The tubular stiffener is configured and arranged to facilitate insertion of the proximal end of the lead into a connector. | 08-06-2009 |
20090216306 | TEMPORARY NEUROSTIMULATION LEAD IDENTIFICATION DEVICE - An implantable lead assembly kit and method of performing a medical procedure on a patient are provided. The kit comprises a lead including a lead body, at least one electrode, and a lumen disposed within the lead body. The kit further comprises identification devices, each of which includes a handle having a different identifier and a shaft extending from the handle. Each shaft is sized to be firmly and removably received within the lumen of the lead. The method comprises introducing at least one lead into the patient, mounting identification devices, each including a handle having a different identifier and a shaft, to the lead(s) by inserting the shafts within the lumens of the lead bodies, advancing the lead bodies into and out of a tube, identifying the lead bodies by examining the identification devices, and removing the identification devices from the lumens of the lead bodies. | 08-27-2009 |
20090222073 | NEUROSTIMULATION LEAD WITH STIFFENED PROXIMAL ARRAY - An implantable electrical lead is provided. The electrical lead comprises an electrically insulative, flexible, elongated lead body having a proximal end and a distal end, an electrical contact carried by the distal end of the lead body, an electrical terminal carried by the proximal end of the lead body, an electrical conductor axially extending within the lead body between the electrical contact and the electrical terminal, and a stiffening tube extending within the proximal end of the lead body from a point proximal to the terminal to a point distal to the terminal and proximal to the electrode. An implantable lead assembly kit comprises the implantable electrical lead, and a connector configured for firmly receiving the proximal end of the lead body. A method of implanting the electrical lead comprises introducing the electrical lead into a patient. | 09-03-2009 |
20100023020 | CAM LOCK BURR HOLE PLUG FOR SECURING RETAINER/PLUG BASE - A burr hole plug comprises a plug base configured for being mounted around a cranial 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 includes a retainer support, a slot formed in the retainer support for receiving the medical device, and a clamping mechanism having a movable clamping element and a cam configured for being rotated relative to the retainer support to linearly translate the movable clamping element into the slot, thereby securing the medical device. The retainer further comprises another clamping mechanism having another movable clamping element and another cam configured for being rotated relative to the retainer support to linearly translate the other movable clamping element, thereby laterally securing the retainer within the plug base. | 01-28-2010 |
20100023100 | CAM LOCK BURR HOLE PLUG FOR SECURING STIMULATION LEAD - A burr hole plug comprises a plug base configured for being mounted around a cranial 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 includes a retainer support, a slot formed in the retainer support for receiving the medical device, and a clamping mechanism having a movable clamping element and a cam configured for being rotated relative to the retainer support to linearly translate the movable clamping element into the slot, thereby securing the medical device. The retainer further comprises another clamping mechanism having another movable clamping element and another cam configured for being rotated relative to the retainer support to linearly translate the other movable clamping element, thereby laterally securing the retainer within the plug base. | 01-28-2010 |
20100042109 | STYLET FOR GUIDING LEADS OF IMPLANTABLE ELECTRIC STIMULATION SYSTEMS AND METHODS OF MAKING AND USING - A lead assembly includes a lead and a stylet. The lead has a distal end, a proximal end, and an outer lead covering. The lead includes a plurality of electrodes disposed at the distal end, a plurality of terminals disposed at the proximal end, and at least one lumen defined in the lead that extends from the distal end to the proximal end. The lead also includes a plurality of conductive wires electrically coupling the plurality of electrodes to the plurality of terminals. The stylet is configured and arranged for inserting into one of the at least one lumens of the lead. The stylet includes an elongated body and a protective feature that is coupled to the elongated body. The protective feature is configured and arranged for absorbing or redirecting an amount of force applied to the stylet above a threshold amount of force. | 02-18-2010 |
20100042169 | RETENTION ASSEMBLIES FOR IMPLANTABLE ELECTRIC STIMULATION SYSTEMS AND METHODS OF MAKING AND USING - A connector assembly includes a lead or a lead extension, a connector, and a retention assembly disposed in the connector. The connector includes a connector housing defining a port at a distal end of the connector, and a plurality of connector contacts disposed in the connector housing. The port is configured and arranged for receiving a proximal end of the lead or the lead extension. The connector contacts are configured and arranged to couple to at least one terminal disposed on the proximal end of the lead or the lead extension. The retention assembly includes a retention mechanism that can be engaged and reversibly disengaged without the use of tools beyond conventional operating-room surgical instruments. | 02-18-2010 |
20100057175 | SYSTEMS, DEVICES, AND METHODS FOR ELECTRICALLY COUPLING TERMINALS TO ELECTRODES OF ELECTRICAL STIMULATION SYSTEMS - An implantable lead includes a first lead assembly with a distal tip and a medial end, a medial section with a first end and a second end, and a first intermediate assembly disposed between the first lead assembly and the first end of the medial section. The first lead assembly includes a plurality of external contacts and at least one conductive wire disposed in the first lead assembly. The at least one conductive wire extends from at least one external contact towards the medial end of the first lead assembly. The medial section includes a plurality of conductors extending from the first end to the second end. The first intermediate assembly includes a plurality of conductive elements. At least one of the conductive elements is configured and arranged to electrically couple the at least one conductive wire to at least one of the conductors. | 03-04-2010 |
20100057176 | IMPLANTABLE ELECTRIC STIMULATION SYSTEM AND METHODS OF MAKING AND USING - An insertion kit includes a lead and a splitable member configured and arranged for receiving the lead when implanting the lead into a patient. The lead has a distal end and at least two proximal ends. The lead includes a plurality of electrodes disposed at the distal end, a plurality of terminals disposed at the proximal ends, and a plurality of conductive wires coupling the plurality of electrodes electrically to the plurality of terminals. The lead also includes a junction coupling the distal end of the lead to the proximal ends of the lead. The splitable member defines a lumen for receiving the distal end of the lead and is configured and arranged to divide into at least two parts for removal of the splitable member from the lead upon implantation of the lead into the patient. | 03-04-2010 |
20100070009 | IMPLANTABLE ELECTRIC STIMULATION SYSTEM AND METHODS OF MAKING AND USING - A lead assembly includes a lead with a distal end and a proximal end. The lead includes a plurality of electrodes disposed at the distal end and a plurality of terminals disposed at the proximal end. The lead also defines at least one central lumen and a plurality of outer lumens. The central and outer lumens extend from the proximal end to the distal end such that the plurality of outer lumens extend laterally from the at least one central lumen. The lead further includes a plurality of conductive wires. Each conductive wire couples at least one of the plurality of electrodes electrically to at least one of the plurality of terminals. At least two conductive wires are disposed in each of the plurality of outer lumens. | 03-18-2010 |
20100070012 | LEAD CONNECTION SYSTEM FOR AN IMPLANTABLE ELECTRICAL STIMULATION SYSTEM AND METHODS FOR MAKING AND USING THE SYSTEMS - A lead connection system includes a connector housing. A plurality of lead retainers disposed in the connector housing are configured and arranged to removably attach to a proximal end of one of a received plurality of leads. The plurality of lead retainers include at least one of a slidable drawer and at least one pivotable hinged panel. A plurality of connector contacts are configured and arranged for making electrical contact with one or more of the terminals of one or more of the plurality of received leads. A single connector cable has a distal end that is electrically coupled to the plurality of connector contacts and a proximal end that is configured and arranged for insertion into a trial stimulator. A cable connector is electrically coupled, via the connector contacts, to at least one terminal of each of the received plurality of leads. | 03-18-2010 |
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 |
20100274336 | TORQUE LOCK ANCHOR AND METHODS AND DEVICES USING THE ANCHOR - A lead anchor includes a body defining a lead lumen having a first opening and a second opening through which a lead can pass. The body further defines a transverse lumen that intersects the lead lumen. An exterior member is disposed around at least a portion of the body. The exterior member is formed of a biocompatible material. A fastener anchors the lead to the body through the transverse lumen by deforming a portion of the lead. The transverse lumen is configured and arranged to receive the fastener. At least one suture element is defined by the exterior member and is configured and arranged for receiving a suture to suture the lead anchor to patient tissue. | 10-28-2010 |
20110009933 | PIGGY-BACK PERCUTANEOUS LEAD INSERTION KIT - A kit includes a coupling member and an insertion needle. The coupling member defines at least one lumen extending through the coupling member that is configured and arranged to receive a portion of one or more lead bodies. The insertion needle includes a tubular member that defines a lumen that is optionally configured and arranged to receive a portion of two or more lead bodies that are coupled by a coupling member. A method of implanting a lead comprises coupling together a portion of two or more leads using a coupling member, disposing at least a portion of the two or more leads coupled by the coupling member into a tubular member of an insertion needle, inserting at least the distal end of the tubular member into a tissue of a patient, and advancing the two or more leads coupled by the coupling member distally through the tubular member and into the tissue. | 01-13-2011 |
20110022141 | SPRING PASSIVE LEAD ANCHOR AND METHODS AND DEVICES USING THE ANCHOR - A lead anchor includes a body defining at least one first portion of a lead lumen, the body having a first opening and a second opening. An obstructing member is disposed within the body. The obstructing member defines a second portion of the lead lumen. A spring is disposed in the body and configured and arranged to operate on the obstructing member so that the second portion of the lead lumen is coterminous with the at least one first portion of the lead lumen and forms a continuous lead path when the spring is compressed and the second portion of the lead lumen is offset from the at least one first portion of the lead lumen when the spring is not compressed. | 01-27-2011 |
20110022142 | TUBULAR LEAD ANCHOR AND METHODS AND DEVICES USING THE ANCHOR - A lead anchor includes a plurality of parallel tubular members and at least one suture element configured and arranged for receiving a suture to suture the lead anchor to patient tissue. Each tubular member defines a lead lumen having a first opening and a second opening through which a lead can pass. | 01-27-2011 |
20110034970 | NEUROSTIMULATION LEAD AND SYSTEM AND METHODS OF MAKING AND USING - A lead includes an outer tube body, an inner tube body, conductors, and electrodes. A portion of the inner tube body may be disposed in the outer tube body lumen. The conductors are optionally partially disposed within the inner tube body lumen, wherein a distal end of each conductor extends beyond a distal end of the inner tube body. Each electrode is optionally coupled to a conductor. The outer tube body may be slideable over the inner tube body between a first position in which the conductors and electrodes are disposed in the outer tube body lumen and a second position in which the outer tube body is partially retracted to expose the conductors and electrodes. The lead is optionally configured and arranged such that at least a portion of the inner tube body remains disposed in the outer tube body lumen after completion of implantation of the lead. | 02-10-2011 |
20110178573 | TORQUE LOCK ANCHOR AND METHODS AND DEVICES USING THE ANCHOR - A lead anchor includes a body defining a lead lumen having a first opening and a second opening through which a lead can pass. The body further defines a transverse lumen that intersects the lead lumen. An exterior member is disposed around at least a portion of the body. The exterior member is formed of a biocompatible material. A fastener anchors the lead to the body through the transverse lumen by deforming a portion of the lead. The transverse lumen is configured and arranged to receive the fastener. At least at least two suture tabs extend from the exterior member and are configured and arranged for receiving a suture to suture the lead anchor to patient tissue. | 07-21-2011 |
20110218549 | SYSTEMS AND METHODS FOR MAKING AND USING A TRIAL STIMULATION SYSTEM HAVING AN ELECTRICAL CONNECTOR DISPOSED ON A TRIAL STIMULATION LEAD - A trial stimulation lead assembly for providing electrical stimulation of patient tissue during a trial stimulation includes a trial stimulation lead for insertion into a patient. The trial stimulation lead includes an elongated lead body having a length and a longitudinal axis. A plurality of electrodes are disposed at a distal end of the lead body. An electrical connector is disposed at a proximal end of the lead body. The electrical connector includes an outer case and a contact array disposed along the outer case. The contact array extends transversely to the longitudinal axis of the lead body. A plurality of electrical conductors extend along the length of the lead body and couple each of the plurality of electrodes to at least one of the plurality of contacts. A lumen extends along at least a portion of the length of the lead body. | 09-08-2011 |
20110224680 | SYSTEM AND METHOD FOR MAKING AND USING A LEAD INTRODUCER FOR AN IMPLANTABLE ELECTRICAL STIMULATION SYSTEM - A lead introducer includes a multi-piece insertion needle insertable into a splitable member. The multi-piece insertion needle includes an outer insertion needle that defines an open channel that extends along substantially entirely a length of the outer insertion needle and an inner insertion needle configured and arranged for insertion into the open channel of the outer insertion needle. The splitable member includes at least two pull-apart tabs and at least one weakened region extending along at least a portion of a length of the splitable member from between the at least two pull-apart tabs. The at least one weakened region is configured and arranged for separating when the at least two pull-apart tabs are pulled apart. | 09-15-2011 |
20110230893 | SYSTEMS AND METHODS FOR MAKING AND USING ELECTRICAL STIMULATION SYSTEMS HAVING MULTI-LEAD-ELEMENT LEAD BODIES - A lead for providing electrical stimulation of patient tissue includes a distal lead element and three proximal lead elements. The distal lead element includes at least twenty electrodes and defines a stylet lumen and a plurality of conductive wire lumens having triangular transverse cross-sectional shapes. Each of the three proximal lead elements includes a plurality of terminals and defines a plurality of conductive wire lumens. Each of the conductive wire lumens has a round transverse cross-sectional shape. A junction couples the distal lead element to the proximal lead elements. Conductive wires couple each of the electrodes of the distal lead element to at least one of the terminals of at least one of the proximal lead elements. The conductive wire lumens disposed on the distal lead element are configured and arranged to receive a plurality of the conductive wires. | 09-22-2011 |
20110313500 | ELECTRODE ARRAY HAVING EMBEDDED ELECTRODES AND METHODS OF MAKING THE SAME - A method of manufacturing a device for brain stimulation includes forming a lead body having a distal end section and coupling at least one pre-electrode to the distal end section of the lead body. The pre-electrode defines a divider with a plurality of partitioning arms, and has a plurality of fixing lumens. A portion of the pre-electrode aligned with the portioning arms is removed to divide the pre-electrode into a plurality of segmented electrodes. Each of the plurality of segmented electrodes defines at least one of the plurality of fixing lumens at least partially disposed through the segmented electrode. A material is introduced through the at least one fixing lumen to couple the plurality of segmented electrodes to the lead body. | 12-22-2011 |
20120029596 | SYSTEMS AND METHODS FOR MAKING AND USING ELECTRICAL STIMULATION SYSTEMS HAVING MULTI-LEAD-ELEMENT LEAD BODIES - A lead for providing electrical stimulation of patient tissue includes a distal lead element, at least two proximal lead elements, and a junction coupling the distal lead element to each of the at least two proximal lead elements. The distal lead element includes a plurality of electrodes and a plurality of conductive wires coupled to the plurality of electrodes and extending along a longitudinal axis of the distal lead element. Each of the at least two proximal lead elements includes a plurality of terminals and a plurality of conductive wires coupled to the plurality of terminals and extending along a longitudinal axis of the proximal lead element. The junction includes a circuit arrangement electrically coupling each of the conductive wires of the distal lead element to at least one of the conductive wires of at least one of the at least two proximal lead elements. | 02-02-2012 |
20120150202 | DEVICES CONTAINING A SUTURE SLEEVE AND METHODS OF MAKING AND USING - Implantable electrical stimulation leads, lead anchors and suture sleeves, as well as methods of making and using the leads, lead anchors, suture sleeves and electrical stimulation systems are described. The lead anchors and suture sleeves present a number of strategies for anchoring a lead within tissue of a patient. | 06-14-2012 |
20120203302 | SYSTEMS AND METHODS FOR MAKING AND USING IMPROVED LEAD EXTENSION CONNECTORS FOR ELECTRICAL STIMULATION SYSTEMS - A lead extension for an electrical stimulation system includes a connector disposed on a first end of a body. The connector includes a housing defining at least one port. Each of the at least one ports is configured to receive a proximal end of a lead. A plurality of connector contacts are disposed in each of the at least one ports. The connector contacts are configured to electrically couple to terminals of a lead when the lead is received by the housing. A first connector flange extends outwardly from a first side of the housing. A plurality of conductors extend along a length of the lead extension and electrically couple at least one of the connector contacts to at least one terminal disposed on a second end of the body. | 08-09-2012 |
20120209285 | SYSTEMS AND METHODS FOR IMPLANTING PADDLE LEAD ASSEMBLIES OF ELECTRICAL STIMULATION SYSTEMS - An insertion kit for percutaneously implanting an electrical stimulating paddle lead into a patient includes a paddle lead introducer. The paddle lead introducer facilitates percutaneous implantation of a paddle lead into the patient. The paddle lead introducer includes a sheath and a dilator. The sheath is insertable into the patient. The sheath is configured and arranged to receive a paddle lead during implantation of the paddle lead into the patient. The sheath can divide into at least two parts for removal of the sheath from the paddle lead upon implantation of the paddle lead. The dilator is insertable into the sheath. A first end of the dilator defines an aperture at a tip of the first end. The first end of the dilator has a transverse circumference that increases from the tip towards a second end. | 08-16-2012 |
20120232623 | SYSTEMS AND METHODS FOR COUPLING CONDUCTORS TO CONDUCTIVE CONTACTS OF ELECTRICAL STIMULATION SYSTEMS - An electrical stimulation lead includes a plurality of conductive contacts disposed at a distal end and a proximal end of a lead body. The plurality of conductive contacts includes a plurality of electrodes and a plurality of terminals. At least one of the conductive contacts is a first conductive contact that includes at least one adhesive aperture defined between an inner surface and an outer surface of the at least one conductive contact. A plurality of conductors each electrically couple at least one of the electrodes to at least one of the terminals. Each first conductive contact has a conductor associated with, and electrically coupled to that first conductive contact. The adhesive is disposed in proximity to the at least one adhesive aperture of at least one first conductive contact to adhesively couple that first conductive contact to the at least one associated conductor. | 09-13-2012 |
20120259398 | SPRING PASSIVE LEAD ANCHOR AND METHODS AND DEVICES USING THE ANCHOR - A lead anchor includes a body defining at least one first portion of a lead lumen, the body having a first opening and a second opening. An obstructing member is disposed within the body. The obstructing member defines a second portion of the lead lumen. A spring is disposed in the body and configured and arranged to operate on the obstructing member so that the second portion of the lead lumen is coterminous with the at least one first portion of the lead lumen and forms a continuous lead path when the spring is compressed and the second portion of the lead lumen is offset from the at least one first portion of the lead lumen when the spring is not compressed. | 10-11-2012 |
20130013043 | RETENTION ASSEMBLIES FOR IMPLANTABLE ELECTRIC STIMULATION SYSTEMS AND METHODS OF MAKING AND USING - A connector assembly includes a lead or a lead extension, a connector, and a retention assembly disposed in the connector. The connector includes a connector housing defining a port at a distal end of the connector, and a plurality of connector contacts disposed in the connector housing. The port is configured and arranged for receiving a proximal end of the lead or the lead extension. The connector contacts are configured and arranged to couple to at least one terminal disposed on the proximal end of the lead or the lead extension. The retention assembly includes a retention mechanism that can be engaged and reversibly disengaged without the use of tools beyond conventional operating-room surgical instruments. | 01-10-2013 |
20130098678 | SYSTEMS AND METHODS FOR MAKING AND USING A SIDE-LOADING OPERATING ROOM CABLE OF AN ELECTRICAL STIMULATION SYSTEM - An operating room cable for electrically coupling a lead to a trial stimulator includes a trial stimulator connector electrically coupleable with the trial stimulator and a lead connector for receiving the lead. The lead connector includes a housing. A first lead aperture is defined in a second end of the housing in proximity to a first side of the housing. A first inner passage extends along an interior of the housing from the first lead aperture to the second end of the housing. A first stylet slit is defined along the first side of the housing and extends from a first end of the housing to the second end of the housing. The first stylet slit is formed between upper and lower casings of the housing. The first stylet slit is continuous with the first lead aperture and the first inner passage. | 04-25-2013 |
20130105071 | SYSTEMS AND METHODS FOR MAKING AND USING IMPROVED LEADS FOR ELECTRICAL STIMULATION SYSTEMS | 05-02-2013 |
20130123868 | IMPLANTABLE ELECTRIC STIMULATION SYSTEM AND METHODS OF MAKING AND USING - A lead assembly includes a lead with a distal end and a proximal end. The lead includes a plurality of electrodes disposed at the distal end and a plurality of terminals disposed at the proximal end. The lead also defines at least one central lumen and a plurality of outer lumens. The central and outer lumens extend from the proximal end to the distal end such that the plurality of outer lumens extend laterally from the at least one central lumen. The lead further includes a plurality of conductive wires. Each conductive wire couples at least one of the plurality of electrodes electrically to at least one of the plurality of terminals. At least two conductive wires are disposed in each of the plurality of outer lumens. | 05-16-2013 |
20130172950 | LEAD WITH LEAD STIFFENER FOR IMPLANTABLE ELECTRICAL STIMULATION SYSTEMS AND METHODS OF MAKING AND USING - A lead includes a plurality of electrodes disposed on the distal end of the lead, a plurality of contact terminals disposed on the proximal end of the lead, a plurality of conductor wires extending along the lead to couple the electrodes electrically to the contact terminals, a central lumen defined by the lead and extending from the proximal end of the lead towards the distal end of the lead, and a tubular stiffener disposed in the proximal end of the central lumen. The tubular stiffener is configured and arranged to facilitate insertion of the proximal end of the lead into a connector. | 07-04-2013 |
20130204270 | INSERTION ASSEMBLY FOR AN ELECTRICAL STIMULATION SYSTEM AND RELATED METHODS OF USE - An insertion assembly for assisting implantation of at least one lead into a patient includes an insertion needle and a sheath. The sheath removably couples with the insertion needle while the insertion needle is being advanced into the patient. When the sheath is coupled to the insertion needle, the sheath is disposed over at least a portion of an outer surface of the insertion needle. The sheath is radially expandable from a non-expanded state to an expanded state that is rigid enough to retract surrounding patient tissue when inserted into the patient. When the sheath is in an expanded state, first and second diameters of the sheath at opposing ends of the sheath are each large enough to concurrently receive at least one of a paddle lead or at least two percutaneous leads. | 08-08-2013 |
20130211528 | CAM LOCK BURR HOLE PLUG FOR SECURING STIMULATION LEAD - A burr hole plug comprises a plug base configured for being mounted around a cranial 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 includes a retainer support, a slot formed in the retainer support for receiving the medical device, and a clamping mechanism having a movable clamping element and a cam configured for being rotated relative to the retainer support to linearly translate the movable clamping element into the slot, thereby securing the medical device. The retainer further comprises another clamping mechanism having another movable clamping element and another cam configured for being rotated relative to the retainer support to linearly translate the other movable clamping element, thereby laterally securing the retainer within the plug base. | 08-15-2013 |
20130268040 | SYSTEMS AND METHODS FOR MAKING AND USING ELECTRICAL STIMULATION SYSTEMS HAVING MULTI-LEAD-ELEMENT LEAD BODIES - A lead for providing electrical stimulation of patient tissue includes a distal lead element, at least two proximal lead elements, and a junction coupling the distal lead element to each of the at least two proximal lead elements. The distal lead element includes a plurality of electrodes and a plurality of conductive wires coupled to the plurality of electrodes and extending along a longitudinal axis of the distal lead element. Each of the at least two proximal lead elements includes a plurality of terminals and a plurality of conductive wires coupled to the plurality of terminals and extending along a longitudinal axis of the proximal lead element. The junction includes a circuit arrangement electrically coupling each of the conductive wires of the distal lead element to at least one of the conductive wires of at least one of the at least two proximal lead elements. | 10-10-2013 |
20130274843 | LEAD CONSTRUCTION FOR DEEP BRAIN STIMULATION - A stimulation lead extends from a proximal end to a distal end and includes a plurality of electrodes disposed along the distal end of the lead; a plurality of terminals disposed along the proximal end of the lead; and an elongated body separating the plurality of electrodes from the plurality of terminals. The elongated body includes an outer tube of insulative material, and a cog-shaped conductor guide disposed within the outer tube. The conductor guide includes a central core and a plurality of protrusions extending outward from the central core. The plurality of protrusions and the outer tube define a plurality of pocket regions. The stimulation further includes a plurality of conductors disposed within the plurality of pocket regions, each conductor coupling at least one of the plurality of electrodes to at least one of the plurality of terminals. | 10-17-2013 |
20130274844 | LEAD WITH CONTACT END CONDUCTOR GUIDE AND METHODS OF MAKING AND USING - An electrical stimulation lead includes a cog-shaped conductor guide disposed either at the proximal end or the distal end of the lead. The cog-shaped conductor guide includes a central core and multiple protrusions extending outwards from the core. Conductor tracks are defined within the cog-shaped conductor guide between adjacent protrusions. Electrodes are provided along the distal end of the lead, terminals are provided along the proximal end of the lead, and conductors couple the electrodes to the terminals. An elongated lead body extends from the electrodes to the terminals of the lead. Each of the conductors has an end portion positioned within one of the conductor tracks of the cog-shaped conductor guide. | 10-17-2013 |
20130296956 | SYSTEMS AND METHODS FOR MAKING AND USING ENHANCED ELECTRODES FOR ELECTRICAL STIMULATION SYSTEMS - A lead assembly for providing electrical stimulation of patient tissue includes at least one elongated lead body, each of the at least one lead bodies having a distal end and a proximal end. A plurality of electrodes are disposed at the distal end of the at least one lead body, each of the electrodes having an outer surface. A plurality of dimples are defined along the outer surface of at least one of the plurality of electrodes, the plurality of dimples configured and arranged to provide a larger surface area for the at least one dimpled electrode than that of a similarly-sized electrode with a flat outer surface. A plurality of terminal are disposed at the proximal end of the at least one lead body. A plurality of conductive wires couple each of the plurality of electrodes to at least one of the plurality of terminals. | 11-07-2013 |
20130317585 | SYSTEMS AND METHODS FOR ELECTRICALLY STIMULATING PATIENT TISSUE ON OR AROUND ONE OR MORE BONY STRUCTURES - An implantable lead assembly for providing electrical stimulation to a patient includes a lead body; a terminal disposed along a proximal end of the lead body; and an orthopedic implant coupled to a distal end of the lead body. The orthopedic implant is configured and arranged for anchoring to a bony structure. At least one mounting region is disposed along the orthopedic implant. The at least one mounting region is configured and arranged for anchoring the orthopedic implant to the at least one bony structure. An electrode is disposed along a stimulation region of the orthopedic implant. A conductor electrically couples the terminal to the electrode. | 11-28-2013 |
20130317587 | METHODS FOR STIMULATING THE DORSAL ROOT GANGLION WITH A LEAD HAVING SEGMENTED ELECTRODES - A method of stimulating a dorsal root ganglion includes providing an electrical stimulation lead having a distal end, a proximal end, a longitudinal length, a circumference, a plurality of electrodes disposed along the distal end of the lead, a plurality of terminals disposed along the proximal end of the lead, and a plurality of conductors. Each conductor electrically couples at least one of the electrodes to at least one of the terminals. The plurality of electrodes includes a plurality of segmented electrodes and each of the segmented electrodes extends around no more than 75% of the circumference of the lead. The method further includes implanting the electrical stimulation lead adjacent to the dorsal root ganglion and applying electrical stimulation to the dorsal root ganglion using at least one of the plurality of segmented electrodes of the electrical stimulation lead. | 11-28-2013 |
20140012358 | LEAD CONNECTION SYSTEM FOR AN IMPLANTABLE ELECTRICAL STIMULATION SYSTEM AND METHODS FOR MAKING AND USING THE SYSTEMS - A lead connection system includes a connector housing. A plurality of lead retainers disposed in the connector housing are configured and arranged to removably attach to a proximal end of one of a received plurality of leads. The plurality of lead retainers include at least one of a slidable drawer and at least one pivotable hinged panel, A plurality of connector contacts are configured and arranged for making electrical contact with one or more of the terminals of one or more of the plurality of received leads. A single connector cable has a distil end that is electrically coupled to the plurality of connector contacts and a proximal end that is configured and arranged for insertion into a trial stimulator. A cable connector is electrically coupled, via the connector contacts, to at least one terminal of each of the received plurality of leads. | 01-09-2014 |
20140039586 | SYSTEMS AND METHODS FOR MAKING AND USING A MULTI-LEAD INTRODUCER FOR USE WITH ELECTRICAL STIMULATION SYSTEMS - A multi-lead introducer for facilitating implantation of stimulation leads includes a needle assembly for concurrently implanting multiple leads into a patient. The needle assembly includes a first needle with a first needle lumen configured to receive a first lead. A first sharpened tip is disposed along a first end of the first needle for piercing patient tissue. A second needle defines a second needle lumen configured to receive a second lead. A second sharpened tip is disposed along a first end of the second needle for piercing patient tissue. A hub is coupled to second ends of both the first needle and the second needle. The hub defines a hub lumen that is in communication with both the first needle lumen and the second needle lumen. The hub lumen is configured to concurrently receive both the first lead and the second lead. | 02-06-2014 |
20140067035 | SYSTEMS AND METHODS FOR COUPLING CONDUCTORS TO CONDUCTIVE CONTACTS OF ELECTRICAL STIMULATION SYSTEMS - An electrical stimulation lead includes a plurality of conductive contacts disposed at a distal end and a proximal end of a lead body. The plurality of conductive contacts includes a plurality of electrodes and a plurality of terminals. At least one of the conductive contacts is a first conductive contact that includes at least one adhesive aperture defined between an inner surface and an outer surface of the at least one conductive contact. A plurality of conductors each electrically couple at least one of the electrodes to at least one of the terminals. Each first conductive contact has a conductor associated with, and electrically coupled to that first conductive contact. The adhesive is disposed in proximity to the at least one adhesive aperture of at least one first conductive contact to adhesively couple that first conductive contact to the at least one associated conductor. | 03-06-2014 |
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 |
20140257447 | SYSTEMS AND METHODS FOR ELECTRICALLY STIMULATING PATIENT TISSUE ON OR AROUND ONE OR MORE BONY STRUCTURES - An implantable lead assembly for providing electrical stimulation to a patient includes a lead body; a terminal disposed along a proximal end of the lead body; and an orthopedic implant coupled to a distal end of the lead body. The orthopedic implant is configured and arranged for anchoring to a bony structure. At least one mounting region is disposed along the orthopedic implant. The at least one mounting region is configured and arranged for anchoring the orthopedic implant to the at least one bony structure. An electrode is disposed along a stimulation region of the orthopedic implant. A conductor electrically couples the terminal to the electrode. | 09-11-2014 |
20140276927 | SYSTEM AND METHOD FOR MAKING AND USING A LEAD INTRODUCER FOR AN IMPLANTABLE ELECTRICAL STIMULATION SYSTEM - A lead introducer includes an insertion-needle assembly configured for receiving an electrical stimulation lead, and a splitable member that defines a lumen configured for receiving a portion of the insertion-needle assembly. The splitable member includes at least two pull-apart tabs disposed on a proximal hub of the splitable member and at least one splitable region extending along at least a portion of a longitudinal length of the splitable member from between the pull-apart tabs. The at least one splitable region is configured for separating when the pull-apart tabs are pulled apart from one another in directions approximately orthogonal to the splitable member. A lead-stabilization feature is configured for receiving, and temporarily retaining, a portion of an electrical stimulation lead extending outward from the splitable member such that the electrical stimulation lead does not move relative to the splitable member when the electrical stimulation lead is received by the lead-stabilization feature. | 09-18-2014 |
20140277314 | SYSTEMS AND METHODS FOR INPUTTING FLUID INTO A LEAD OF AN ELECTRICAL STIMULATION SYSTEM - An insertion kit for an electrical stimulation system includes a lead with a lead body and a jacket disposed over at least a portion of the lead body. Apertures are defined along an outer surface of the lead body with each of the apertures extending completely through the jacket to an inner surface. The apertures include at least one first aperture. Conductors electrically couple electrodes and terminals disposed along the lead. Conductor insulation is disposed over each of the conductors. At least a portion of the conductor insulation is in fluid communication with the local environment external to the lead via the apertures. A fluid-insertion assembly is configured and arranged for inputting fluid into the lead, via the at least one first aperture, prior to implantation of the lead into the patient. | 09-18-2014 |
20150073431 | SYSTEMS AND METHODS FOR MAKING AND USING A LEAD INTRODUCER FOR AN IMPLANTABLE ELECTRICAL STIMULATION SYSTEM - A lead introducer includes an outer needle with a sharpened distal tip and an open channel extending along an entire length of the outer needle. An inner needle slides along the open channel of the outer needle. The inner needle includes a blunt distal tip. A biasing element is coupled to the inner needle and facilitates transition of the inner-needle distal tip between a distally-biased position, where the inner-needle distal tip obstructs the sharpened outer-needle distal tip, and a retracted position, where the inner-needle distal tip exposes the sharpened outer-needle distal tip. A splittable member is disposable over the outer needle when the inner needle is disposed in the open channel of the outer needle. The splittable member is separatable from the inner and outer needles along at least one perforated region. | 03-12-2015 |
20150073432 | SYSTEMS AND METHODS FOR MAKING AND USING A LEAD INTRODUCER FOR AN IMPLANTABLE ELECTRICAL STIMULATION SYSTEM - A lead introducer includes an outer needle with an outer-needle body. The outer-needle body includes a bend of at least 5° permanently formed along a distal end portion of the outer-needle body. The bend facilitates insertion of the lead introducer into an epidural space of a patient. The outer-needle body defines an open channel extending, along an entire length of the outer-needle body. An inner needle is slidable along the open channel of the outer needle. The inner needle includes an inner-needle body that defines a lumen extending along an entire length of the inner-needle body. A splittable member is disposable over the outer needle when the inner needle is disposed in the open channel of the outer needle. The splittable member is separatable from the inner and outer needles along at least one perforated region. | 03-12-2015 |