Abstract: A favored angle screw assembly and a rod receiver body for a favored angle pedicle screw assembly. The favored angle screw assembly includes a pedicle screw and the rod receiver body. The rod receiver body includes a tubular wall having a first end with a first opening, a second end with a second opening, and a bore extending from the first opening to the second opening. The bore features a first bore section adjacent to the first opening, a second bore section adjacent the second opening, and a third bore section having a first end adjacent to the first bore section and a second end adjacent to the seat surface. The third bore section defines a transition surface that conforms to a side wall of an oblique three-dimensional shape.

Abstract: A favored angle screw assembly and a rod receiver body for a favored angle pedicle screw assembly. The favored angle screw assembly includes a pedicle screw and the rod receiver body. The rod receiver body includes a tubular wall having a first end with a first opening, a second end with a second opening, and a bore extending from the first opening to the second opening. The bore features a first bore section adjacent to the first opening, a second bore section adjacent the second opening, and a third bore section having a first end adjacent to the first bore section and a second end adjacent to the seat surface. The third bore section defines a transition surface that conforms to a side wall of an oblique three-dimensional shape.

Abstract: Vertebra bodies in the human spine are stabilized through the use of minimally invasive surgery for the implantation of an elongate implant plate assembly having spaced first and second screw receiving socket elements which are configured for respective attachment to first and second spaced vertebra with the aid of bone fixation screws and these elements are slidably received with respect to each other for adjustably changing the distance between the screw receiving socket elements. A lock assembly is also provided for selectively locking the first and second screw receiving elements from further relative sliding. An elongate insertion tool is releaseably secured to the plate assembly, and the insertion tool is configured for manipulating the plate assembly as a whole and for remotely manipulating the screw receiving socket elements for adjusting the distance therebetween.

Abstract: The present invention provides a vertebral implant comprising a wall forming two short sides (100, 101) and two elongated sides (102, 103) to define a generally elongated structure having a passageway (106) therethrough. At least one of the two elongated sides is resiliently compressible into the passageway, or resiliently expandable away from the passageway, under a force applied to the implant by movement of the spine into which the implant is placed. This resilient opposition to forces in the spine causes the device to want to return to its at-rest position, thereby aiding the spine in its return to a normal position after movement is relaxed, thereby aiding proper spine alignment. Preferably, the device comprises a flexible body having a generally loop-shaped configuration defined by the wall, wherein the wall material and thickness is selected so that the device has appropriate degrees of flexibility and strength.

Abstract: A surgical instrument for insertion of an interbody fusion implant between adjacent vertebral bodies. The surgical instrument comprises a frame member, and a first and a second arm coupled to the frame member. Each arm includes a distal end region and a proximal end region, whereby the proximal end region of at least one arm is pivotably coupled to the frame member, and the distal end region of each arm defines a distractor plate. The distractor plate of each arm is configured to be positioned in direct contact with a vertebral body. A wedge is positioned between the first and second arms, and is configured to translate the interbody fusion implant along an axis between the proximal end region and the distal end region of the arms while adjusting a distance between the distractor plates of the arms via a rack and pinion.

Abstract: An osteosynthetic plate assembly and a method of installing the osteosynthetic plate assembly is disclosed. The osteosynthetic plate assembly comprises a dynamic extension plate having a first end portion for connection to a first vertebrae, a second end portion for connection to a second vertebrae, and a dynamic flexible portion extending between the first and second end portions. The dynamic extension plate is configured for coupling with a cervical fusion plate. A method of installing the dynamic extension plate to adjacent vertebrae comprises the steps of engaging a connector of the dynamic extension plate with a coupling of a cervical fusion plate, and mounting the dynamic extension plate to the adjacent vertebrae.

Abstract: Vertebra bodies in the human spine are stabilized through the use of minimally invasive surgery for the implantation of an elongate implant plate assembly having spaced first and second screw receiving socket elements which are configured for respective attachment to first and second spaced vertebra with the aid of bone fixation screws and these elements are slidably received with respect to each other for adjustably changing the distance between the screw receiving socket elements. A lock assembly is also provided for selectively locking the first and second screw receiving elements from further relative sliding.

Abstract: A medical device assembly includes a rod receiving member for receiving a portion of a rod member therein. A locking member locks the rod member in place in the rod receiving member. A gripping mechanism between threads in the rod receiving member and threads in the locking member prevent splaying of the threads when the threads are threadedly entrained together.

Abstract: A bone plate is provided for fixation of spaced vertebra. The bone plate has at least one through passage for securing the plate to bone with a bone fixation screw. The threaded shaft of a bone fixation screw is inserted through a bushing located in the through passage of the bone plate and the screw is thereby threadably secured to the underlying bone and the bushing is then compressed inward against the head of the screw with cams that are actuated by rotating the bushing in the through passage whereby the screw is locked relative to the bone plate. The bushing is not only compressed inwardly against the head of the screw but is also compressed downwardly by the cams into a seat to clamp separate elements of the bone plate together.

Abstract: Vertebra bodies in the human spine are stabilized through the use of minimally invasive surgery for the implantation of an elongate implant plate assembly having spaced first and second screw receiving socket elements which are configured for respective attachment to first and second spaced vertebra with the aid of bone fixation screws and these elements are slidably received with respect to each other for adjustably changing the distance between the screw receiving socket elements. A lock assembly is also provided for selectively locking the first and second screw receiving elements from further relative sliding.

Abstract: A bone plate is provided for fixation of spaced vertebra. The bone plate has at least one through passage for securing the plate to bone with a bone fixation screw. The threaded shaft of a bone fixation screw is inserted through a bushing located in the through passage of the bone plate and the screw is thereby threadably secured to the underlying bone and the bushing is then compressed inward against the head of the screw with cams that are actuated by rotating the bushing in the through passage whereby the screw is locked relative to the bone plate. The bushing is not only compressed inwardly against the head of the screw but is also compressed downwardly by the cams into a seat to clamp separate elements of the bone plate together.