Patent application number | Description | Published |
20080312698 | DEVICE AND SYSTEM FOR STABILIZING MOVEMENT BETWEEN BONY TISSUE AND METHOD FOR IMPLANTING - A device and system for stabilizing movement between two or more vertebral bodies and methods for implanting. Specifically, embodiments of the present disclosure may provide medical professionals the ability to selectively position and orient anchors in bony tissue and then attach a plate to the pre-positioned anchors. The plate assembly, once positioned on the anchors, prevents the anchors from backing out of the bony tissue. | 12-18-2008 |
20090005814 | STABILIZATION SYSTEM AND METHOD - The disclosure relates generally to embodiments of systems and methods of spinal stabilization. Embodiments include methods that use a dilator to displace tissue proximate to a sleeve. An embodiment of a surgical system can comprise a dilator that may define a working channel from a first opening to a second opening. The dilator can be positioned to displace tissue proximate to the sleeve. The dilator may be shaped to allow a first end of an elongated member to enter the working channel through the first opening and exit the dilator through the second opening to be percutaneously moved to another assembly. | 01-01-2009 |
20090048601 | MIS CROSSLINK APPARATUS AND METHODS FOR SPINAL IMPLANT - A spinal implant provides support for desired parts of the spine. The implant can provide support in fusion situations. The spinal implant includes a pair of elongated members and a variable length cross-link. A variable length cross-link apparatus may couple to the first and second elongated members. Each variable length cross-link device may include a fixed portion having a receiver portion for attachment to a first elongated member. Each variable length cross-link may include a transverse portion. Each variable length cross-link may include an adjustable portion having a receiver portion for attachment to a second elongated member and a transverse portion engaging member. Inserting the transverse portion of the fixed portion into the engaging portion of the adjustable portion may form a cross-link for stabilizing motion between two elongated members. Engaging the adjustable portion at a selected point on the transverse portion establishes a length selected by the surgeon. The surgical procedure may use minimally invasive surgery or non-minimally invasive surgery, as desired. Components of the system may be inserted through sleeves attached to various coupling devices, or may be inserted and guided along wires at more lateral angles. | 02-19-2009 |
20090138044 | STABILIZATION SYSTEM AND METHOD - The disclosure relates to systems and methods of spinal stabilization. Embodiments include methods of delivering a rod having a non-circular cross-sectional profile using a wire having an accommodating non-circular cross-sectional profile to inhibit movement of a rod relative to the wire. A surgical system can comprise a first sleeve advanced via a first incision to a vertebra, a second sleeve advanced via a second incision to another vertebra, a wire having a non-circular cross-sectional profile advanced via a third incision to the vertebrae and passed through the collars of bone fastener assemblies to extend from a fourth incision. A rod or a segment of a rod having a corresponding non-circular cross-sectional profile may be aligned with the wire and advanced and coupled with the vertebrae to stabilize the spine. After the rod is securely seated in the collars, the wire may be withdrawn from the body. | 05-28-2009 |
20090326589 | HINGED PLATE FOR DYNAMIC STABILIZATION - One embodiment provides a system which can include a pair of plates pivotably coupled to each other by a hinge. The plates can attach to posterior surfaces of vertebrae. The posterior surfaces can be on vertebral facets or can be exposed by removal of the facets. The hinge can be coupled to the plates in such a manner that the hinge is positioned adjacent to a center of rotation about which the vertebrae rotate relative to each other when the spine extends or flexes. The hinge can include a ball and socket, pin and pin hole, screw, etc and a sealing jacket. The system can include a piston for allowing the system to stretch and compress with the spine. Travel stops can be included in the hinge and piston. Multiple levels of the spine can be stabilized by systems with pairs of plates keyed to align with each other. | 12-31-2009 |
20110190823 | STABILIZATION SYSTEM AND METHOD - The disclosure relates to systems and methods of spinal stabilization. Embodiments include minimally invasive methods of delivering a rod having a non-circular cross-sectional profile using a wire having an accommodating non-circular cross-sectional profile to inhibit movement of the rod relative to the wire. A rod or a segment of the rod having a non-circular cross-sectional profile may be aligned with the wire and advanced and coupled to bone fastener assemblies which are anchored in vertebrae. The rod is then securely seated in collars of the bone fastener assemblies to stabilize the spine. | 08-04-2011 |
20120041493 | STABILIZATION SYSTEM AND METHOD - The disclosure relates generally to embodiments of systems and methods of spinal stabilization. Embodiments include methods that use a dilator to displace tissue proximate to a sleeve. An embodiment of a surgical system can comprise a dilator that may define a working channel from a first opening to a second opening. The dilator can be positioned to displace tissue proximate to the sleeve. The dilator may be shaped to allow a first end of an elongated member to enter the working channel through the first opening and exit the dilator through the second opening to be percutaneously moved to another assembly. | 02-16-2012 |
20120089187 | MIS CROSSLINK APPARATUS AND METHODS FOR SPINAL IMPLANT - A spinal implant provides support for desired parts of the spine. The spinal implant includes a pair of elongated members and a variable length cross-link. A variable length cross-link device may include a fixed portion having a receiver portion for attachment to a first elongated member a transverse portion, and an adjustable portion having a receiver portion for attachment to a second elongated member and a transverse portion engaging member. Inserting the transverse portion of the fixed portion into the engaging portion of the adjustable portion may form a cross-link for stabilizing motion between two elongated members. Engaging the adjustable portion at a selected point on the transverse portion establishes a length selected by the surgeon. The surgical procedure may use minimally invasive surgery or non-minimally invasive surgery, as desired. Components may be inserted through sleeves attached to various coupling devices, or may be inserted and guided along wires. | 04-12-2012 |
20130331891 | STABILIZATION SYSTEM AND METHOD - The disclosure relates to systems and methods of spinal stabilization. Embodiments include minimally invasive methods of delivering a rod having a non-circular cross-sectional profile using a wire having an accommodating non-circular cross-sectional profile to inhibit movement of the rod relative to the wire. A rod or a segment of the rod having a non-circular cross-sectional profile may be aligned with the wire and advanced and coupled to bone fastener assemblies which are anchored in vertebrae. The rod is then securely seated in collars of the bone fastener assemblies to stabilize the spine. | 12-12-2013 |
Patent application number | Description | Published |
20090078413 | WIRELESS CASING COLLAR LOCATOR - A wireless casing collar locator includes a pipe coupling detector configured to be conveyed through a wellbore. A detection device is associated with the pipe coupling detector. The detection device generates an output indicative of detection of a pipe coupling in response to the output of the pipe coupling detector. The locator includes an acoustic transmitter functionally associated with the detection device. The transmitter is configured to apply an acoustic impulse to a conveyance device used to move the locator along the wellbore in response to communication to the transmitter of the output of the detection device. A surface receiver and processing unit used to convert acoustic energy into electrical energy for processing in real time to determine the location of the pipe detector in wellbores. | 03-26-2009 |
20090080291 | DOWNHOLE GAUGE TELEMETRY SYSTEM AND METHOD FOR A MULTILATERAL WELL - A downhole gauge telemetry system for a multilateral well includes a first wireless transceiver located in a primary borehole of the multilateral well, a second wireless transceiver located in a lateral borehole of the multilateral well, a wireless connection between the first wireless transceiver and the second wireless transceiver through which the first and second wireless transceivers exchange data, and a surface transceiver communicatively coupled to the first wireless transceiver. | 03-26-2009 |
20090090501 | REMOTELY CONTROLLABLE WELLBORE VALVE SYSTEM - A remotely operable wellbore valve system includes a valve configured to be coupled to a wellbore conduit and to selectively close the conduit. The valve is disposed in a valve body configured to open an existing wellbore valve by longitudinal motion therethrough and to sealingly engage an interior of the existing wellbore valve. The system includes a valve actuator and a signal receiver in communication with the valve actuator. The signal receiver is configured to detect command signals transmitted from the Earth's surface and to cause the actuator to operate the valve in response to the detected command signals. | 04-09-2009 |
20090217960 | ELECTRICAL POWER SOURCE USING HEAT FROM FLUIDS PRODUCED FROM THE EARTH'S SUBSURFACE - A thermoelectric generator for producing electric power from heat in fluids produced from a subsurface wellbore includes a conduit for moving therethrough fluids produced from the Earth's subsurface and at least one thermoelectric module affixed to an exterior of the conduit. The at least one thermoelectric module includes a collimating heat transfer device in contact with the conduit on a first side and in contact with a first side of a thermoelectric generator thermocouple on a second side. A second side of the thermocouple is in contact with a contact surface of a heat sink. The heat sink is exposed to ambient atmosphere at the Earth's surface to conduct heat away from the thermocouple. | 09-03-2009 |
Patent application number | Description | Published |
20120217015 | LASER ASSISTED RISER DISCONNECT AND METHOD OF USE - There is provided a high power laser-riser blowout preventer package and laser module for use with a subsea riser. The laser module and laser-riser package use high power laser energy to quickly cut the riser permitting an offshore drilling rig to quickly, and in a controlled manner disconnect from a blowout preventer. | 08-30-2012 |
20120217018 | LASER ASSISTED BLOWOUT PREVENTER AND METHODS OF USE - There is provided a high power laser assisted blowout preventer and methods of use. In particular, there are provided systems and assemblies for utilizing high power laser energy within a blowout preventer to cut tubulars that are present within the bore of the blowout prevent, reducing the risk that such tubulars will inhibit the ability of the blowout preventer to seal a well. | 08-30-2012 |
20120217019 | SHEAR LASER MODULE AND METHOD OF RETROFITTING AND USE - There is provided a high power shear laser module, which can be readily included in a blowout preventer stack. The shear laser module as the capability of delivering high power laser energy to a tubular within a blowout preventer cavity, cutting the tubular and thus reducing the likelihood that the tubular will inhibit the ability of the blowout preventer to seal off a well. | 08-30-2012 |
20130220626 | SHEAR LASER MODULE AND METHOD OF RETROFITTING AND USE - There is provided a high power shear laser module, which can be readily included in a blowout preventer stack. The shear laser module as the capability of delivering high power laser energy to a tubular within a blowout preventer cavity, cutting the tubular and thus reducing the likelihood that the tubular will inhibit the ability of the blowout preventer to seal off a well. | 08-29-2013 |