Interbody device and plate for spinal stabilization and instruments for positioning same

1 - 23 . (canceled) 24 . A method for providing spinal stabilization, comprising: positioning a plate such that trajectories of a first pair of holes of the plate intersect a first vertebra and trajectories of a second pair of holes of the plate intersect an adjacent second vertebra; inserting a first pair bone screws through the first pair of holes and into the first vertebra; inserting a second pair bone screws through the second pair of holes and into the second vertebra; and rotating a retaining element of the plate comprising a plurality of arms separated by gaps from a first position in which the gaps are aligned with the holes to a second position in which the arms overlap the holes to prevent the bone screws from backing out of the holes. 25 . A method as recited in claim 24 , wherein the retaining element is coupled to the plate as the retaining element rotates from the first position to the second position. 26 . A method as recited in claim 25 , wherein the bone screws are inserted through the holes and into the vertebrae when the retaining element is in the first position. 27 . A method as recited in claim 24 , wherein inserting the bone screws into the vertebra secures the plate substantially extradiscally such that the plate is positioned outside of a disc space defined by the vertebrae. 28 . A method as recited in claim 24 , wherein inserting the bone screws into the vertebra secures the plate extradiscally such that no portion of the plate is positioned within a disc space defined by the vertebrae. 29 . A method as recited in claim 24 , wherein positioning the plate comprises locating the plate along anterior facing surfaces of the vertebrae. 30 . A method as recited in claim 24 , wherein the retaining element includes a cross-like configuration such that two of the arms extend along a first axis and two of the arms extend along a second axis that is transverse to the first axis. 31 . A method as recited in claim 24 , wherein each of the trajectories extend toward a common point above the plate. 32 . A method as recited in claim 24 , wherein the holes each having a radius of curvature that is substantially equivalent to a radius of curvature of each of the gaps. 33 . A method as recited in claim 24 , further comprising inserting an implant within a disc space between the vertebrae, wherein the bone screws are spaced apart from the implant when the bone screws are inserted into the vertebrae. 34 . A method as recited in claim 24 , further comprising inserting an implant within a disc space between the vertebrae, wherein the implant and plate are not physically attached or otherwise coupled to one another when the implant is positioned within the disc space and the bone screws are inserted through the holes and into the vertebrae. 35 . A method as recited in claim 24 , further comprising inserting an implant within a disc space between the vertebrae, wherein the implant is rotatable relative to the plate when the implant is positioned within the disc space and the bone screws are inserted through the holes and into the vertebrae. 36 . A method as recited in claim 24 , further comprising inserting an implant within a disc space between the vertebrae such that a concavely shaped surface of the plate faces a trailing end of the implant when the implant is positioned within the disc space and the bone screws are inserted through the holes and into the vertebrae. 37 . A method for providing spinal stabilization, comprising: engaging an implant with a plate to hold the implant and the plate in a contiguous relationship; inserting the implant within a disc space between adjacent first and second vertebrae; positioning the plate such that trajectories of a first pair of holes of the plate intersect the first vertebra and trajectories of a second pair of holes of the plate intersect the second vertebra; inserting a first pair bone screws through the first pair of holes and into the first vertebra; inserting a second pair bone screws through the second pair of holes and into the second vertebra; and rotating a retaining element of the plate comprising a plurality of arms separated by gaps from a first position in which the gaps are aligned with the holes to a second position in which the arms overlap the holes to prevent the bone screws from backing out of the holes. 38 . A method as recited in claim 37 , wherein: the retaining element is coupled to the plate as the retaining element rotates from the first position to the second position; and the bone screws are inserted through the holes and into the vertebrae when the retaining element is in the first position. 39 . A method as recited in claim 37 , wherein the implant is rotatable relative to the plate when the implant is positioned within the disc space and the bone screws are inserted through the holes and into the vertebrae. 40 . A method as recited in claim 37 , wherein engaging the implant with the plate comprises engaging the implant and the plate with an instrument and the method further comprises releasing the instrument from the plate and the implant such that the implant and plate are not physically attached or otherwise coupled to one another when the implant is positioned within the disc space and the bone screws are inserted through the holes and into the vertebrae. 41 . A method as recited in claim 37 , wherein engaging the implant with the plate comprises tines of an instrument into grooves in the plate and the implant and the method further comprises removing the tines from the grooves such that the implant and plate are not physically attached or otherwise coupled to one another when the implant is positioned within the disc space and the bone screws are inserted through the holes and into the vertebrae. 42 . A method as recited in claim 37 , wherein engaging the implant with the plate comprises tines of an instrument into grooves in the plate and the implant and the method further comprises removing the tines from the grooves such that the implant is rotatable relative to the plate when the implant is positioned within the disc space and the bone screws are inserted through the holes and into the vertebrae. 43 . A method for providing spinal stabilization, comprising: positioning a plate such that trajectories of a first pair of holes of the plate intersect an anterior facing surface of a first vertebra and trajectories of a second pair of holes of the plate intersect an anterior facing surface of an adjacent second vertebra; inserting a first pair bone screws through the first pair of holes and into the first vertebra; inserting a second pair bone screws through the second pair of holes and into the second vertebra; and rotating a retaining element, the retaining element comprising a plurality of arms separated by gaps, the retaining element having a cross-like configuration such that two of the arms extend along a first axis and two of the arms extend along a second axis that is transverse to the first axis, wherein rotating the retaining element comprises rotating the retaining element relative to a body of the plate from a first position in which the gaps are aligned with the holes to a second position in which the arms overlap the holes to prevent the bone screws from backing out of the holes, the retaining element being coupled to the plate as the retaining element rotates from the first position to the second position.