Abstract: The disclosure generally relates to rod-coupling assemblies for coupling rods from separate pedicle screw systems. The rod-coupling assemblies generally include at least one rod-receiving body and at least one cam mechanism. The rod-receiving body and cam mechanism cooperate to capture and retain a distraction rod therewith. The cam mechanism includes a helical cam surface that mates with the rod and urges the rod into a retained position by rotation of the cam mechanism. In one embodiment, the assembly is configured to capture and retain two rods with one rod-receiving body. In another embodiment, the assembly is configured to capture and retain a rod and a head portion of a pedicle screw in one rod-receiving body. In yet another embodiment, the assembly includes a lever that is actuated to fix a first rod-receiving body to a second rod-receiving body.

Abstract: The disclosure generally relates to a modular disc that is insertable by sections into a disc space located between vertebral bodies. The primary segments of the modular disc are one or more middle members engageable with first and second side members. The first and second side members are successively inserted into and positioned in the disc space one at a time. The middle member is then slidably engaged on rails extending from the respective first and second side members. Eventually, the middle member is moved along the guides and positioned between the respective first and second side members and the guides or rails are detached. Optionally, a cushioning and/or biasing member may be located between upper and lower portions of the side members and/or middle member.

Abstract: A pedicle screw system includes a pedicle screw and a tulip assembly. A rod is inserted and fixed in the pedicle screw system to surgically connect vertebral bodies. The pedicle screw includes a head portion and a threaded shaft. In one embodiment, the tulip assembly includes a tulip body, a rod-support member, a collar member, a cap, and a fastening member. The tulip body has an upper portion and a lower portion, these portions being displaceable in opposite directions relative to an intermediate web. The tulip body can be intra-operatively coupled to the pedicle screw after the screw has been inserted into the bone. The cap engages with the tulip body to lock the tulip body onto the pedicle screw and thus fix the tulip body at a desired angle relative to the pedicle screw.

Abstract: The pedicle screw system may be used for fixation of spinal segments and may be advantageous when minimally invasive surgery (MIS) techniques are employed. The pedicle screw system includes a tulip assembly comprising a tulip body, a inner member, an expansion member, and a cap assembly. Installation of the pedicle screw system into pedicles of the spine, for example, includes inserting the pedicle screw into a portion of the spine, coupling a partial assembly comprising the tulip body, inner member, and expansion member to the pedicle screw, placing a rod in the tulip assembly, and then coupling the cap assembly to the tulip body. Coupling the cap assembly to the tulip body includes initially locking the tulip assembly to the pedicle screw and then locking the rod in the tulip assembly.

Abstract: The pedicle screw system may be used for fixation of spinal segments and may be advantageous when minimally invasive surgery (MIS) techniques are employed. The pedicle screw system includes a tulip assembly comprising of a tulip body, a inner member, and an expansion member. Installation of the pedicle screw system into pedicles of the spine, for example, includes inserting the pedicle screw into a portion of the spine and then coupling the tulip assembly to the pedicle screw. The tulip assembly may be locked onto the pedicle screw before a distraction rod is placed in the tulip assembly. After the rod is placed in the tulip assembly, the tulip body and the inner member can be rotated relative to one another to lock the rod into the tulip assembly. In addition, the relative rotation may also provide additional locking of the tulip assembly to the pedicle screw.

Abstract: An expandable interbody spacer (IBS) device designed to restore the disc height between vertebral bodies. The expandable interbody spacer device has an integral, moveable expansion member or spreader, provided between two plates. The plates are connected by one or more connecting members that retain the plates in a position proximate to one another while allowing the plates to move from a first unexpanded position to a second expanded position upon activation of the expansion member. According to aspects of the invention, the interbody spacer device can be implanted in an unexpanded or collapsed configuration, and then expanded to full height by engaging the expansion member. In other embodiments, the interbody spacer device may take various forms, for example, it may be cashew, rectangular or annular.