A pedicle hook for use in treatment of the spine has a bifurcated blade in which one of the legs formed by the bifurcation is longer than the other.

A spinal implant system including components designed to be affixed to the spinal column. The system includes spinal rods, attachment devices, and interpositional sleeves for securing the attachment devices to the rods. The attachment devices may be various types of spinal hooks, screws, couplers, rod connectors, clamps, or other such devices.

A spinal implant system including components designed to be affixed to the spinal column. The system includes spinal rods, attachment devices, and interpositional sleeves for securing the attachment devices to the rods. The attachment devices may be various types of spinal hooks, screws, couplers, rod connectors, clamps, or other such devices.

An osteosynthetic holding system is provided which comprises bone anchoring elements, each of which has a clamping element as well as two receptacles arranged thereon for receiving holding bars. The receptacles have blocking elements arranged thereon which define accesses to the receptacles. Two holding bars are provided which are insertable into the receptacles of each bone anchoring element. The clamping element can be tightened to clamp the two holding bars against the receptacles, thereby fixing the position of each bone anchoring element with respect to the other. The blocking elements, together with the clamping element in a tightened state, constrict the accesses to said receptacles in a direction transverse to a longitudinal direction of the holding bars such that the holding bars no longer fit through the accesses. The blocking elements of the two receptacles are dimensioned such that upon releasing the clamping element, the accesses to the two receptacles are enlarged to enable each of the holding bars to fit through its respective receptacle in turn as the clamping element is released.

A spine fixation assembly connecting a first and second vertebra includes first and second elongated plates that form an X-shaped structure. The first elongated plate has a first and a second end that are attached to a first location of the first vertebra and to a second location of the second vertebra, respectively. The second elongated plate has a first and a second end that are attached to a second location of said first vertebra and to a first location of the second vertebra, respectively. The ends of the plates are attached to the various locations of the vertebra via screws or hooks. The elongated plates may have adjustable length, may be rotated around a central axis passing through the center of-the X-shaped structure and may be cross-coupled to each other via a screw. A third and fourth elongated plated may be attached horizontally across the top and bottom of the X-shaped structure, respectively.