Patent application number | Description | Published |
20090069852 | Multi-Axial Bone Anchor Assembly - In one aspect, a bone anchor assembly is provided. The bone anchor assembly includes a bone anchor, a crown member, a saddle, and a sleeve. The bone anchor assembly is configured such that the bone anchor is moveable with respect to the saddle when the sleeve is positioned around the saddle and the bone anchor is locked relative to the saddle by compression of the head portion of the bone anchor between the crown member and a seat of the saddle. In another aspect, a system for orthopedic implantation is provided. The system includes an elongated member, a compression member, and a bone anchor assembly. In another aspect, a method of assembling a bone anchor assembly is provided. | 03-12-2009 |
20100131017 | Multi-Axial Bone Anchor Assembly - In one aspect, a bone anchor assembly is provided. The bone anchor assembly includes a bone anchor, a crown member, a saddle, and a sleeve. The bone anchor assembly is configured such that the bone anchor is moveable with respect to the saddle when the sleeve is positioned around the saddle and the bone anchor is locked relative to the saddle by compression of the head portion of the bone anchor between the crown member and a seat of the saddle. In another aspect, a system for orthopedic implantation is provided. The system includes an elongated member, a compression member, and a bone anchor assembly. In another aspect, a method of assembling a bone anchor assembly is provided. | 05-27-2010 |
20100152780 | SPINOUS PROCESS ANCHORING SYSTEMS AND METHODS - Devices and methods for anchoring one or more elongate connecting members along the spinal column include a transverse linking member positionable through a spinous process in a generally orthogonal orientation to the sagittal plane. At least one coupling assembly is engageable about an end of the linking member extending from the spinous process. The elongate connecting member is engaged to the coupling assembly in a transverse orientation to the transverse linking member. | 06-17-2010 |
20100222780 | METHOD AND APPARATUS FOR RETAINING SCREW IN A PLATE - A retention system for maintaining a screw to a vertebral plate is described herein. One or more screws extend through apertures within the vertebral plate. A cavity is positioned adjacent to and overlaps into the aperture. A ring is positioned within the cavity and held in position by a cap. The cap attaches to the plate to prevent removal of the ring. The ring is deflectable between a first shape to allow the screw to be inserted and removed from the aperture, and a second shape to prevent screw back-out from the aperture. | 09-02-2010 |
20100222822 | Posterior Fixation System - A posterior fixation system includes a saddle member, an anchoring member, an occipital plate, an occipital rod, and a cross-link connector. The anchoring member anchors the saddle member to bone. The saddle member includes a pair of upright portions that define a channel. The channel is adapted to receive an orthopedic rod, and the saddle member can include a hole to receive the anchoring member. The saddle member and the anchoring member can be coupled so as to allow multi-axial movement of the members. The anchoring member in one embodiment is a screw coupled to the hole of the saddle, and in another embodiment, the anchoring member is a hook. The offset member may be coupled to the saddle member to allow for offset connection of rods. Connection of individual rods can be accomplished by connecting the rods with the cross-link connector. The cross-link connector has an integrally formed cylindrical member that couples a pair of coupling portions together. The cylindrical member can be bent along multiple axes. The occipital plate secures the rods to the occipital bone of the skull. The occipital plate has a cross-shaped plate with a plurality of apertures defined in the plate and at least one saddle member coupled to the plate. Alternatively, the occipital rod can be secured to the occipital bone. | 09-02-2010 |
20110264145 | SPINAL CONSTRUCT SYSTEM - Embodiments for a spinal construct system including a spinal fixation plate attachable to fixture element in end-to-end fashion with a coupling mechanism that axially and torsionally constrains the first and second rods to one another. In one form, the end-to-end attachment arrangement is aligned along a common axis of the rods. In another form, the axes of the rods are offset laterally relative to one another. | 10-27-2011 |
20110276096 | LOW PROFILE VERTEBRAL STABILZATION SYSTEMS AND METHODS - Skeletal stabilization systems include a base, a longitudinal member, and a retaining member. The base includes an engagement surface with a surface area that is positionable in contact with a bone to atraumatically or traumatically engage the base to the bone. The retaining member engages the base to retain the longitudinal member relative to the base so that the longitudinal member can provide a desired stabilization effect to one or more adjacent bony portions. | 11-10-2011 |
20120010661 | MULTI-AXIAL ORTHOPEDIC DEVICE AND SYSTEM - Embodiments of an orthopedic implant device and system, and methods for implanting them, are disclosed. The implant may include a receiver member having a channel for accommodating an elongated rod or other longitudinal member, a bone anchoring member such as a screw or hook, and a base member rotatable with respect to the receiver member for retaining the bone anchoring member in the receiver member. The base member is configured to allow at least two different degrees of maximum angulation of the bone anchoring member with respect to the receiver member. The number and relative direction of such angulations are independent of the orientation of the channel or other part of the receiving member. | 01-12-2012 |
20120109218 | Directional Control for a Multi-Axial Screw Assembly - A multi-axial screw assembly comprises a receiver, a base member, and a crown. The receiver comprises a channel for receiving a rod and an aperture extending from a bottom portion of the receiver. The base member comprises an aperture extending through the base member and an opening on a bottom portion of the base member. The base member is configured to couple to the receiver such that the aperture of the receiver is generally aligned with the aperture of the base member. The base member is rotatable relative to the receiver. The crown is received in the receiver and configured to mate to the base member. The crown has a mating feature configured to couple to the base member such that the crown rotates the base member when the crown is rotated. | 05-03-2012 |
20120197314 | PROVISIONAL FIXATION FOR A MULTI-AXIAL SCREW ASSEMBLY - A multi-axial screw assembly comprises a receiver, a base member, a crown and a bone screw. The base member includes an aperture extending through the base member and an opening on a bottom portion of the base member. The base member is rotatable relative to the receiver and has an inner wall extending partially around the aperture. The crown is received in the receiver and configured to mate to the base member. The crown has a projection configured to extend into the opening of the base member. The projection is configured to have an abutting surface. The bone screw is located between the base member and the crown, the bone screw is configured to be provisionally fixed within the receiver by a force between the abutting surface of the projection and the inner wall of the base member. | 08-02-2012 |
20120277805 | Rotatable Base Multi-Axial Screw Assembly - A multi-axial screw assembly comprises a receiver member, a base member, a crown and a bone anchoring member. The receiver member has an aperture configured to receive the base member and an internal groove. The base has a deflectable ring configured to mate with the internal groove of the receiver member and a slot configured to allow the deflectable ring to compress to a diameter less than the diameter of the aperture such that the base member may be compressed and axially received within the receiver member. The base member is axially restrained within the base member relative to the receiver member while allowed to rotate relative to the receiver member. The crown is received within the receiver member along the central axis of the receiver member. The crown maintains the diameter of the deflectable ring greater than the diameter of the aperture. | 11-01-2012 |
20140200617 | Posterior Fixation System - A posterior fixation system includes a saddle member, an anchoring member, an occipital plate, an occipital rod, and a cross-link connector. The anchoring member anchors the saddle member to bone. The saddle member includes a channel that is adapted to receive an orthopedic rod. The saddle member and the anchoring member can be coupled so as to allow multi-axial movement of the members. Connection of individual rods can be accomplished by connecting the rods with the cross-link connector. The occipital plate secures the rods to the occipital bone of the skull. Alternatively, the occipital rod can be secured to the occipital bone. | 07-17-2014 |