Patent application number | Description | Published |
20090132017 | STIMULATION/SENSING LEAD ADAPTED FOR PERCUTANEOUS INSERTION - The present invention relates to a percutaneous insertion-capable lead, wherein insertion made through a percutaneous insertion structure. For one embodiment of such lead, the electrode-supporting stimulation portion of the lead includes at least one waisted region, relative to a transverse dimension of the lead, to facilitate lead steerability. | 05-21-2009 |
20100077606 | METHOD OF FORMING A LEAD - An implantable, substantially isodiametric, low resistance implantable lead having at least one electrode positioned in a stimulation/sensing portion of the lead as well as a method of manufacturing the same. At least the stimulation/sensing portion is unitized through partially surrounding and supporting insulation and conductive element(s) of the stimulation/sensing portion with a fused matrix of material having mechanical properties consistent with a body of the lead. | 04-01-2010 |
20110257660 | APPARATUS FOR IMPLANTING AN ELECTRICAL STIMULATION LEAD - In one embodiment, an introducer is provided for implanting an electrical stimulation lead to enable electrical stimulation of nerve tissue. The introducer includes an outer sheath and an inner penetrator. The outer sheath may accommodate insertion of the electrical stimulation lead and may be inserted into a human body near the nerve tissue. The inner penetrator is removably housed within the outer sheath and includes an inner channel configured to accommodate a guide wire, a tip end having a shape and size substantially conforming to that of the guide wire, a body region having a shape and size substantially conforming to that of the outer sheath, and one or more transition regions substantially connecting the tip end with the body region. At least a portion of the transition regions of the inner penetrator may flex to substantially follow flexures in the guide wire during advancement of the inner penetrator. | 10-20-2011 |
20110277601 | Torque Wrench - A torque wrench comprising a shaft with a longitudinal axis; wherein the shaft has a lower end and an upper end, the lower end being configured to engage a fastener. A shaft cam is configured to rotate with the shaft around the longitudinal axis. A groove is defined in the shaft cam, the groove comprising a groove upper surface. A ramp is positioned within the groove at a position below the groove upper surface, wherein the ramp comprises a ramp upper surface with a first lower point, a first upper point and a surface extending along a perimeter of the shaft cam between the first lower and first upper points at an angle with respect to the longitudinal axis. The ramp upper surface is configured so that the first lower point is positioned in the direction opposite of the direction of the intended torque with respect to the first upper point. A housing surrounds the shaft and shaft cam. The wrench comprises an outer cam comprising an engaging member extending within the housing, wherein the engaging member is configured to selectively contact ramp upper surface or groove upper surface. The wrench also comprises a spring configured to apply a downward force on the outer cam, such that the outer cam tends to prevent the shaft cam from rotating when the upper surface of the ramp is in contact with the engaging member of the outer cam. A void is defined in the groove between the ramp and a side wall of the groove, the void configured to allow the engaging member to escape the groove when it is not constrained by the ramp. | 11-17-2011 |
20120011711 | STIMULATION LEAD, STIMULATION SYSTEM, AND METHOD FOR LIMITING MRI INDUCED CURRENT IN A STIMULATION LEAD - In one embodiment, a percutaneous stimulation lead for applying electrically stimulation pulses to tissue of the patient comprises: a plurality of electrode assemblies electrically coupled to a plurality of terminals through a plurality of conductors of the stimulation lead, wherein each electrode assembly is disposed in an annular manner around the lead body and each electrode assembly comprises (i) an electrode adapted to deliver electrical stimulation to tissue of a patient, (ii) an interior conductive layer, and (iii) a dielectric layer disposed between the electrode and the interior conductive layer; the electrode and interior conductive layer being capacitively coupled, the dielectric layer further comprising an inductor, the inductor being electrically connected to one of the plurality of conductors through the interior conductive layer, and the inductor being electrically coupled to the electrode. | 01-19-2012 |
20120245594 | APPARATUS FOR IMPLANTING AN ELECTRICAL STIMULATION LEAD - In one embodiment, an introducer is provided for implanting an electrical stimulation lead to enable electrical stimulation of nerve tissue. The introducer includes an outer sheath and an inner penetrator. The outer sheath may accommodate insertion of the electrical stimulation lead and may be inserted into a human body near the nerve tissue. The inner penetrator is removably housed within the outer sheath and includes an inner channel configured to accommodate a guide wire, a tip end having a shape and size substantially conforming to that of the guide wire, a body region having a shape and size substantially conforming to that of the outer sheath, and one or more transition regions substantially connecting the tip end with the body region. At least a portion of the transition regions of the inner penetrator may flex to substantially follow flexures in the guide wire during advancement of the inner penetrator. | 09-27-2012 |
20130013039 | DIRECTIONAL STIMULATION LEAD AND ORIENTATION SYSTEM - A lead, method of manufacturing same, and system for stimulation is provided. The lead includes an insulative member or layer that masks a portion of the electrode(s) to effectively generate a directional lead that focuses or directs the stimulation to desired location(s). In another embodiment, the lead further includes a marking system to allow a clinician to orient the directional lead, as desired, while the lead is within a body. | 01-10-2013 |
20130041445 | STIMULATION/SENSING LEAD ADAPTED FOR PERCUTANEOUS INSERTION - The present invention relates to a percutaneous insertion-capable lead, wherein insertion made through a percutaneous insertion structure. For one embodiment of such lead, the electrode-supporting stimulation portion of the lead includes at least one waisted region, relative to a transverse dimension of the lead, to facilitate lead steerability. | 02-14-2013 |
20130167372 | METHOD OF FORMING A LEAD - An implantable, substantially isodiametric, low resistance implantable lead having at least one electrode positioned in a stimulation/sensing portion of the lead as well as a method of manufacturing the same. At least the stimulation/sensing portion is unitized through partially surrounding and supporting insulation and conductive element(s) of the stimulation/sensing portion with a fused matrix of material having mechanical properties consistent with a body of the lead. | 07-04-2013 |
Patent application number | Description | Published |
20130053927 | LEAD IDENTIFICATION SYSTEM - A lead identification system for tracking a plurality of neurostimulation leads during implantation in a patient, and a method of using the same. The lead identification system includes a plurality of lead indicators each adapted to attach to one of a plurality of epidural needles to identify the leads. At least one clip adapted to releasably attach to proximal ends of the leads is provided with corresponding lead indicators. The trial cable for conducting trial stimulation includes connectors with corresponding lead indicators. A plurality of lead indicator stylets are provided for insertion into lumens at the proximal ends of the leads. The pulse generator also has connectors with corresponding lead indicators. The various lead indicators permit a surgeon to track a particular lead to the corresponding connectors on the pulse generator. | 02-28-2013 |
20130172996 | METHOD OF IMPLANTING A MEDICAL IMPLANT TO TREAT HEARING LOSS IN A PATIENT - In one embodiment, a method of treating hearing loss in a patient, comprises: creating a first channel in osseous tissue at or immediately adjacent to the promontory of the patient; creating a second channel through the first channel to the scala tympani or the scala vestibuli; and implanting a hearing device in the first channel, the hearing device being in fluid communication with cochlear fluid through the second channel, the hearing device being adapted to drive cochlear fluid to activate auditory receptor cells in the cochlea of the patient. | 07-04-2013 |
20140188181 | Apparatus and Device for the Fixation of Osteosynthesis Plates - Disclosed herein are apparatus, devices and methods for affixing an implant, plate, or the like to body tissue. Preferred embodiments comprise a plate with a pre-defined hole, fasteners configured for secure attachment to body tissue, and a self-centering tool capable of holding and installing multiple fasteners. | 07-03-2014 |
Patent application number | Description | Published |
20090326594 | ELECTRICAL STIMULATION LEAD, SYSTEM, AND METHOD - A paddle lead includes a plurality of electrodes configured in at least three rows of three electrodes with the second, intermediate row operable to provide anode guarding. The paddle lead further includes a plurality of grooves disposed on a surface opposite the electrodes to facilitate the insertion of the paddle lead within a patient by inhibiting the veering of the paddle lead to one side or the other of the dorsal column as the paddle lead is advanced along the dorsal column midline during implantation. | 12-31-2009 |
20100298842 | BURR HOLE CAP AND METHODS OF USE - In one embodiment, an apparatus comprises: a base structure adapted to be inserted within the burr hole; a lead securing member for securing the lead, the lead securing member comprising a first arm structure and a second arm structure, at least one spring loaded structure adapted to exert a force to bring the first arm structure and the second arm structure together; and a positioning tool having a distal end adapted to be inserted within the lead securing member. When the positioning tool is positioned within the lead securing member, the distal end holds the first and second arm structures a sufficient distance apart to receive a lead between the first and second arm structures; wherein the positioning tool comprises a control structure at a proximal end that, when engaged, causes the distal end of the positioning tool to be released from between the first and second arm structures. | 11-25-2010 |
20110144655 | BURR HOLE CAPS AND METHODS OF USE - In one embodiment, an apparatus comprises: a base structure adapted to be inserted within the burr hole; a lead securing member for securing the lead, the lead securing member comprising a first arm structure and a second arm structure, at least one spring loaded structure adapted to exert a force to bring the first arm structure and the second arm structure together; and a positioning tool having a distal end adapted to be inserted within the lead securing member. When the positioning tool is positioned within the lead securing member, the distal end holds the first and second arm structures a sufficient distance apart to receive a lead between the first and second arm structures; wherein the positioning tool comprises a control structure at a proximal end that, when engaged, causes the distal end of the positioning tool to be released from between the first and second arm structures. | 06-16-2011 |
20120010626 | BURR HOLE CAPS AND METHODS OF USE - In one embodiment, a kit, for securing a lead or cannula within a burr hole, comprises: a base structure to be positioned immediately adjacent to or partially within the burr hole; a lead securing member for securing the lead within the burr hole, the lead securing member comprising a first arm structure and a second arm structure, at least one spring loaded structure adapted to exert a force to bring the first arm structure and the second arm structure together; and a positioning tool having a distal end adapted to be inserted within the lead securing member; wherein when the distal end of the positioning tool is positioned within the lead securing member, the distal end holds the first and second arm structures a sufficient distance apart to receive a lead or a cannula between the first and second arm structures. | 01-12-2012 |
20120110846 | COMPLIANT ELECTRICAL STIMULATION LEADS AND METHODS OF FABRICATION - In one embodiment, a neurostimulation lead for stimulating neural tissue of a patient, comprises: a lead body of insulative material; a plurality of electrodes; a plurality of terminals; a plurality of conductors, wherein the plurality of electrodes are electrically coupled to the plurality of terminals through the plurality of conductors; wherein the plurality of conductors are disposed in a helical manner in a repeating pattern of groups of conductors separated by gaps along a substantial length of the lead body, each gap being larger than an inter-conductor pitch within the groups of conductors; wherein the insulative material is a compliant material permitting elongation of the lead at low stretching forces and the insulative material of the lead body is fused through a substantial volume of the lead body and along a substantial length of the lead body. | 05-10-2012 |
20120279063 | ELECTRICAL STIMULATION LEAD WITH STIFFENERS HAVING VARYING STIFFNESS ZONES - In one embodiment, a neurostimulation lead comprises an elongated body of insulative material, comprising a first end portion and a second end portion; a plurality of terminals longitudinally positioned along the first end portion; a plurality of electrodes longitudinally positioned along the second end portion; a plurality of conductors electrically coupling the plurality of electrodes to the plurality of terminals; a flexible metal longitudinal stiffener positioned within the elongated body wherein the stiffener has a plurality of longitudinal zones and each zone has a different column strength, the column strength of one or more zones of the plurality of longitudinal zones being defined by cuts or gaps in the stiffener, the stiffener causing the neurostimulation lead to exhibit a greatest amount of column strength adjacent to one end portion of the elongated body and to transition to a lower column strength toward a medial portion of the elongated body. | 11-08-2012 |
Patent application number | Description | Published |
20090145026 | SYSTEM FOR GROWING PLANT MATERIAL ON A BUILDING AND METHOD OF ASSEMBLING PLANT-GROWTH SUPPORT SYSTEM ON A BUILDING - In one embodiment, a system for supporting plant growth on a roof of a building, comprises: a water-impervious base structure; a water-permeable cover; porous material, held between the base structure and the cover, for providing a root base for the plant growth; one or more irrigation channels for permitting delivery of water through the base structure or cover to the synthetic or natural soil; the cover being further adapted to permit growth of plant material from the porous material through to an exterior of the cover. | 06-11-2009 |
20100042184 | METHOD OF IMPLANTING A MEDICAL IMPLANT TO TREAT HEARING LOSS IN A PATIENT, DEVICES FOR FACILITING IMPLANTATION OF SUCH DEVICES, AND MEDICAL IMPLANTS FOR TREATING HEARING LOSS - In one embodiment, a method of treating hearing loss in a patient, comprises: creating a first channel in osseous tissue at or immediately adjacent to the promontory of the patient; creating a second channel through the first channel to the scala tympani or the scala vestibuli; and implanting a hearing device in the first channel, the hearing device being in fluid communication with cochlear fluid through the second channel, the hearing device being adapted to drive cochlear fluid to activate auditory receptor cells in the cochlea of the patient. | 02-18-2010 |
20130289684 | ELECTRICAL STIMULATION LEAD, SYSTEM, AND METHOD - A paddle lead includes a plurality of electrodes configured in at least three rows of three electrodes with the second, intermediate row operable to provide anode guarding. The paddle lead further includes a plurality of grooves disposed on a surface opposite the electrodes to facilitate the insertion of the paddle lead within a patient by inhibiting the veering of the paddle lead to one side or the other of the dorsal column as the paddle lead is advanced along the dorsal column midline during implantation. | 10-31-2013 |
20140323972 | ANCHOR SLEEVE FOR IMPLANTABLE LEAD - An anchor sleeve for securing a therapy delivery element, such as a stimulation lead or catheter, within a living body, that includes an inner sleeve with pre-formed locations of weakness that facilitate localized deformation. The anchor includes a deformable outer sleeve with a primary lumen extending along an axis. The outer surface of the outer sleeve includes a plurality of suture grooves oriented generally concentric to the axis. The inner sleeve includes a plurality of beams connected at deflection regions arranged around a secondary lumen. The inner sleeve is located in the primary lumen adjacent to the suture grooves so that the secondary lumen is generally concentric with the primary lumen. A plurality of locations of weakness are preformed in each of the beams to facilitate localized deformation in response to a radially inward force applied around the suture grooves by a suture material. | 10-30-2014 |