In accordance with embodiments of the present invention, a rod extension for extending a fusion construct is provided. The rod extension allows a surgeon to connect a stabilization rod implant to at least a portion of a patient's spine, and also to connect the stabilization rod implant to an existin
In accordance with embodiments of the present invention, a rod extension for extending a fusion construct is provided. The rod extension allows a surgeon to connect a stabilization rod implant to at least a portion of a patient's spine, and also to connect the stabilization rod implant to an existing implant that has been previously installed in the patient. The existing fusion implant typically includes at least one existing pedicle screw, at least one existing rod, and at least one existing connector interconnecting the existing pedicle screw to the existing rod. The extension implant comprises a rod, an offset beam connected to the rod, and a clamp interconnected to the offset beam, wherein the clamp can be secured to the existing rod, thereby extending the fusion construct. A method of use is also provided.
대표청구항▼
1. A method for extending an existing implant connected to at least two vertebra of a patient to a third vertebra of the patient, the existing implant including at least one or more existing pedicle screws each defining a pedicle screw long axis, at least one existing rod oriented in a cephalad-caud
1. A method for extending an existing implant connected to at least two vertebra of a patient to a third vertebra of the patient, the existing implant including at least one or more existing pedicle screws each defining a pedicle screw long axis, at least one existing rod oriented in a cephalad-caudad orientation, and one or more existing connectors interconnecting the one or more existing pedicle screws to the at least one existing rod, wherein a spinal anchor and a connector are associated with the third vertebra, the method comprising: attaching a spinal rod extension to the at least one existing rod using a securing mechanism by causing the securing mechanism to grasp an exterior of the least one existing rod at a location longitudinally spaced apart from each of the one or more existing pedicle screws and the one or more existing connectors such that the spinal rod extension intersects one of the pedicle screw long axes; andinterconnecting the spinal anchor to the spinal rod extension using the connector;wherein at least a portion of the spinal rod extension is adapted to be at least one of (a) oriented substantially aligned with the at least one existing rod or (b) oriented aligned substantially parallel to the at least one existing rod. 2. The method of claim 1, wherein using the securing mechanism includes advancing a screw. 3. The method of claim 1, wherein the securing mechanism comprises a clamp that includes a first wing and a second wing, and wherein attaching the spinal rod extension to the at least one existing rod using the securing mechanism includes advancing a screw through a screw hole and through a portion of a slot into contact with the second wing of the clamp to achieve a separation of the first wing from the second wing, wherein the separation results in securing the securing mechanism to the existing rod. 4. The method of claim 1, further comprising forming an incision in the patient, inserting the anchor portion through the incision and installing the anchor portion in the third vertebra. 5. The method of claim 4, wherein the incision extends less than an entire length of the existing implant. 6. The method of claim 4, wherein the incision extends at least an entire length of the existing implant. 7. The method of claim 1, wherein interconnecting the spinal anchor to the spinal rod extension comprises inserting a rod portion of the spinal rod extension into a cavity of the connector. 8. The method of claim 1, wherein attaching the spinal extension rod to the at least one existing rod comprises inserting the at least one existing rod into a receptacle of the securing mechanism. 9. The method of claim 8, wherein: the receptacle includes an opening defined by a distance between opposing arms of the securing mechanism; andthe securing mechanism is movable between a first position in which the opening has a maximum width that is greater than that of the at least one existing rod and the at least one existing rod is movable within the receptacle and a second position in which the maximum width of the opening is less than that of the at least one existing rod. 10. The method of claim 8, wherein: the receptacle includes an opening defined by a distance between opposing arms of the securing mechanism; andthe securing mechanism is deformable to move the securing mechanism between a first position in which the opening has a maximum width that is greater than that of the at least one existing rod and the at least one existing rod is movable within the receptacle and a second position in which the maximum width of the opening is less than that of the at least one existing rod. 11. The method of claim 10, wherein each of the opposing arms extends beyond an equator of the at least one existing rod that bisects the at least one existing rod in a direction that is perpendicular to a longitudinal axis defined by the at least one existing rod. 12. The method of claim 1, wherein the spinal rod extension includes a rod portion that extends parallel to the at least one existing rod. 13. The method of claim 1, wherein the spinal rod extension includes a rod portion that extends transverse to the at least one existing rod. 14. The method of claim 1, wherein inner surfaces of each of the one or more existing connectors engage an outer surface of the at least one existing rod to couple the at least one existing rod to the one or more connectors. 15. The method of claim 1, further comprising rotating the spinal rod extension relative to the at least one existing rod to adjust an orientation of spinal rod extension about a long axis of the at least one existing rod. 16. The method of claim 1, wherein the at least one existing rod has a uniform cylindrical cross-sectional configuration. 17. The method of claim 1, wherein the at least one existing rod has a uniform cylindrical cross-sectional configuration and is free of any openings. 18. The method of claim 1, wherein the at least one existing rod is monolithic and extends along an existing rod long axis, a first portion of the spinal rod extension being coaxial with the existing rod long axis and a second portion of the spinal rod extension being offset from the existing rod long axis. 19. A method for extending an existing implant connected to at least two vertebra of a patient to a third vertebra of the patient, the existing implant including at least one or more existing pedicle screws, at least one existing rod oriented in a cephalad-caudad orientation, and one or more existing connectors interconnecting the one or more existing pedicle screws to the at least one existing rod, wherein a spinal anchor and a connector are associated with the third vertebra, the method comprising: attaching a spinal rod extension to the at least one existing rod using a securing mechanism by causing the securing mechanism to grasp an exterior of the least one existing rod at a location longitudinally spaced apart from each of the one or more existing pedicle screws and the one or more existing connectors, the spinal rod extension including a rod portion that is coaxial with the at least one existing rod; andinterconnecting the spinal anchor to the spinal rod extension using the connector,wherein the spinal rod extension includes an offset beam that extends parallel to the rod portion and is non-coaxial with the rod portion, the offset beam extending over one of the one or more existing pedicle screws and one of the one or more existing connectors, andwherein at least a portion of the spinal rod extension is adapted to be at least one of (a) oriented substantially aligned with the at least one existing rod or (b) oriented aligned substantially parallel to the at least one existing rod. 20. The method of claim 19, wherein the rod portion has a circular cross sectional configuration and the offset beam has a rectangular cross sectional configuration to provide the offset beam with a low profile.
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