A sleeve can be adapted to reinforce a bone anchor, and can include a body, a lock, and an actuator. The body can include a first sleeve arm and a second sleeve arm, where each can extend longitudinally along opposing sides of a longitudinal bore open at a distal end of the sleeve. The lock can be coupled to the body and releasably securable to a channel of a head of the bone anchor to secure the sleeve to the anchor.

An access device for accessing an intervertebral disc having an outer shield comprising an access shield with a larger diameter (˜16-30 mm) that reaches from the skin down to the facet line, with an inner shield having a second smaller diameter (˜5-12 mm) extending past the access shield and reaches down to the disc level. This combines the benefits of the direct visual microsurgical/mini open approaches and the percutaneous, “ultra-MIS” techniques.

An instrument includes an outer sleeve defining a passageway and extending along an axis between proximal and distal ends. A knob sleeve is positioned in the passageway and defines a bore and a sleeve cavity. A latch is positioned in the sleeve cavity. A shaft is positioned in the bore. An inner sleeve is positioned between the knob sleeve and the shaft. A proximal end of the inner sleeve defines a notch. The knob sleeve is movable relative to the outer sleeve to move the instrument between a first orientation in which the latch is positioned in the notch and the inner sleeve is prevented from translating along the axis and a second orientation in which the latch is spaced apart from the notch and the inner sleeve is translatable along the axis. Systems, implants and methods are disclosed.

Apparatus and devices for percutaneously extending an existing spinal construct ipsilaterally with an additional spinal construct in a patient are disclosed. The additional spinal construct comprises a rod connector that includes an elongate additional rod integrally attached thereto. The additional rod is placed through an access port in a first orientation generally parallel to the longitudinal axis of the access port and rotated to a different second orientation generally transverse to the longitudinal axis of the access port. During such rotation the additional rod is moved subcutaneously beneath the skin of the patient from the existing spinal rod to an additional bone engaging implant. In another arrangement, the extension of an existing spinal construct in a minimally invasive procedure comprises a rod connector having an offset support for receiving an additional spinal rod that may be placed laterally interiorly or exteriorly of the existing spinal construct.

A surgical apparatus includes an instrument portal including a first proximal end, a first distal end, and a first elongated member, the first elongated member defining a first bore having a first dimension, wherein the first bore extends from the first distal end to the first proximal end, wherein the maximum clearance of the instrument portal is the first dimension and a drill guide reducer configured to be inserted into the instrument portal, the drill guide reducer including an elongated cylindrical member defining an enclosed body surrounding an opening, the enclosed body having an outside dimension that is smaller than the first dimension, such that the drill guide reducer is sized to fit within the instrument portal and defining an inner dimension configured to receive a drill guide, wherein the inner dimension of the drill guide reducer is smaller than the first dimension of the instrument portal.

Rod link reducer assemblies, systems, and methods thereof. The rod link reducer assembly provides a manipulator rod having a first end, a second end, and an elongate body extending along a body axis between the first end and the second end. A post extends outwardly from the rod. A rod manipulating joint comprise an elongate joint rod extending along a joint rod axis, a first coupling clamp disposed along the joint rod, the first coupling clamp releasably connectable to the post, and a second coupling clamp disposed along the joint rod adjacent to and rotatable about the joint rod relative to the first coupling clamp. The second coupling clamp is releasably connectable to a shaft. A biasing member is adapted to bias the second clamp against the first clamp.

A system for correcting a lateral curvature of a spine that can include a plurality of screws configured to be implanted in a plurality of vertebrae, and a plurality of extensions configured to be removably coupled with the plurality of screws. Some embodiments of the plurality of extensions can be curved, bent, angled, and/or offset along at least a portion thereof and can be removably coupled with a screw head of each of the plurality of screws. The system can include a connecting element or rod that is configured to be coupled with the plurality of screw heads. Some embodiments of the system can be configured such that the rod can be guided along the plurality of extensions from the proximal toward the distal end portions of the extensions and into engagement with the plurality of screws to cause the plurality of vertebrae to move laterally.

A screw extender (100) for an orthopedic implant kit having a distal side for holding a screw and a proximal side, the screw extender including two side walls (10, 20) facing each other, the two side walls connected to each other at the proximal side by a connection element (30), wherein inner sides of portions of the two side walls that face each other include a threading (16, 26), and wherein the threading includes a plurality of flanks, each flank including a tab (168) that is bent inwardly towards the other side wall and a wall-traversing opening in the corresponding side wall delineating the flank.

Embodiments herein are generally directed to derotation systems, apparatuses, and components thereof that can be used in spinal derotation procedures, as well as methods of installation. The derotation systems may include a plurality of derotation towers and clamp members.

Disclosed is a surgery control tool: being no patient implant, including: an elongated body having the shape and the size of a spinal correction rod, end contact parts being able to contact a patient implanted spinal correction rod implant, spacers extending from the elongated body towards the end contact parts.