Patent application number | Description | Published |
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 |
20100004693 | CAM LOCKING SPINE STABILIZATION SYSTEM AND METHOD - A spine stabilization may include a rod and bone fastener assemblies. Each bone fastener assembly may include a bone fastener and a collar. Each bone fastener may have a threaded shank and a head. Each collar may have a first end with a cavity for accommodating the bone fastener and a second end having a channel for accommodating the rod. The channel may have a first portion for positioning the rod. The channel may have a second portion for advancing the rod, wherein rotating the collar advances the rod in the channel. | 01-07-2010 |
20100024487 | Surgical Instrument With Integrated Reduction And Distraction Mechanisms - Embodiments of a surgical instrument disclosed herein can include mechanisms for reduction and distraction as well as compression. Some embodiments of the surgical instrument may comprise a reducer knob having a first passage through which a first shaft of a driver is acceptable, a connecting element coupled to the reducer knob and having a second passage through which the first shaft of the driver is acceptable, a compressor handle coupled to the connecting element at a first end and having a through hole, and a common handle coupled to the compressor handle via the through hole and pivots between the reducer knob and the compressor handle. With embodiments of a surgical instrument disclosed herein, surgical personnel can distract and hold vertebrae in a distracted state and perform a reduction without having to switch or add instruments. Some embodiments disclosed herein can be particularly useful for reducing spondylolisthesis during posterior fixation. | 02-04-2010 |
20100030283 | SURGICAL INSTRUMENT WITH INTEGRATED COMPRESSION AND DISTRACTION MECHANISMS - Embodiments disclosed herein provide a combination compressor/distractor useful for fitting a spinal stabilization system in a patient through minimally invasive surgery. The spinal stabilization system may comprise screws anchored in vertebrae. The vertebrae may need to be compressed or distracted. One embodiment of an instrument disclosed herein may comprise a shaft for engaging one of the screws through an extender sleeve. A driver may engage another screw through an opening of the instrument. Through this engagement, a surgeon may use the rack and pinion of the instrument to compress or distract one or more levels of the vertebrae in a parallel motion, which can be advantageous clinically in certain situations. | 02-04-2010 |
20100076557 | GEARED SPINAL IMPLANT INSERTER-DISTRACTOR - Embodiments of a geared spinal implant inserter-distractor disclosed herein provide a greater mechanical advantage in delivering an intervertebral implant via an anterior, anterior-lateral, or posterior approach. The geared spinal implant inserter-distractor comprises an inserter, a distractor structured to slidably receive the inserter with a collar and an intervertebral implant attached thereto, and a gear mechanism arranged to translate a surgeon's rotational motion into linear motion, allowing the surgeon to have a greater control and feedback when placing an implant within an intervertebral disc space. The gear arrangement comprises a pinion inside the distractor and a rack on the inserter. The pinion can be driven by a shaft connected to a knob or handle. With the gear mechanism, a surgeon can turn the knob or handle to drive the inserter in and out of the distractor in a quantifiable manner, which facilitates the desirable precision delivery of the intervertebral implant. | 03-25-2010 |
20100152785 | COAXIALLY LOCKABLE POLY-AXIAL BONE FASTENER ASSEMBLIES - A poly-axial bone fastener assembly having a collar and a bone fastener can be coaxially locked to prevent poly-axial movements of the collar relative to the bone fastener while permitting the collar to rotate about an axis of the bone fastener, thereby combining the functions and advantages of a poly-axial bone screw and a fixed angle bone screw. Some embodiments of a coaxial locking mechanism may include a c-clip with a locking pin, a c-clip with hooks, a split ring with square corners, a pin that spins inside the collar, pins that travel about a neck of the bone fastener, a coaxially locking top that screws into the collar over a head of the bone fastener, and a top nut that threads onto the head of the bone fastener inside the collar to trap a flange of the collar between a shoulder of the bone fastener and the top nut. | 06-17-2010 |
20110022088 | SPINAL ROD INSERTION TOOL AND METHOD - Embodiments described herein provide systems and methods for inserting a spinal stabilization rod. A rod insertion tool can include a body defining a passage, a pivot rod disposed in the passage and a rod retaining member. Movement of the pivot rod can cause the rod retaining member to rotate and consequently the spinal stabilization rod to rotate. The rod insertion tool can be sized to fit through channels in sleeves used during implantation of a spinal stabilization system. | 01-27-2011 |
20110040328 | SYSTEM AND METHOD FOR PERFORMING VERTEBRAL REDUCTION USING A SLEEVE - Embodiments described herein provide systems and methods for vertebral reduction using sleeves detachably coupled to collars of bone fasteners. The reduction can be performed during a minimally invasive procedure for implanting spinal stabilization systems. A sleeve can include internal threads that match threads on the respective collar to form a continuous set of threads. Threads on a closure member can be engaged with the threads on the sleeve and the closure member turned to translate the closure member along the sleeve. The closure member can be used to push a rod relative to the collar to which the sleeve is attached to cause a vertebral body to move. | 02-17-2011 |
20110054537 | FUSION METHOD AND PEDICLE ACCESS TOOL - Embodiments described herein provide tools and methods for spinal fusion procedures. One embodiment of a tool can be a pedicle access tool that performs the functions of targeting needle, cannula, tap and awl. The cannula of the tool can be used to guide various tools and bone graft or fusion promoting material to a surgical site for a spinal fusion procedure, such as a posterolateral procedure. In other embodiments, a k-wire can be used as the guide. | 03-03-2011 |
20110093014 | Rod with Removable End and Inserter Therefor - Embodiments disclosed herein provide a rod and a corresponding rod inserter. The rod has an elongated body with a removable end configured for an insertion tool engagement. The removable end of the rod has a part that can be securely attached to a rod holder of a rod inserter ex situ prior to minimally invasive rod insertion. A breakable portion is located between the part and the elongated body. The part can be broken off from the rod in situ to release the rod inserter. The broken off part of the rod is removed with the rod inserter and separated from the rod inserter ex situ. | 04-21-2011 |
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 |
20120071885 | SURGICAL INSTRUMENT SUPPORT SYSTEM AND METHOD - Embodiments include a system for manipulating a portion of the spine. A support body provides support for extender sleeves that are coupled to bone screws implanted in bone. The extender sleeves are coupled to the support body in a manner that allows translation and rotation of the extender sleeves relative to the support body. Movement and rotation of the extender sleeves in selected directions can be allowed while movement and rotation in other directions can be inhibited. The extender sleeves can be manipulated to move the bone. | 03-22-2012 |
20120116467 | SURGICAL INSTRUMENT WITH INTEGRATED COMPRESSION AND DISTRACTION MECHANISMS - Embodiments disclosed herein provide compression/distraction methods and tools useful for fitting a spinal stabilization system in a patient through minimally invasive surgery. The spinal stabilization system may comprise screws anchored in vertebrae. The vertebrae may need to be compressed or distracted. One embodiment of an instrument disclosed herein may comprise a shaft for engaging one of the screws through an extender sleeve. A driver may engage another screw through an opening of the instrument. Through this engagement, a surgeon may use the rack and pinion of the instrument to compress or distract one or more levels of the vertebrae in a parallel motion, which can be advantageous clinically in certain situations. | 05-10-2012 |