Zero-profile interbody spacer and coupled plate assembly

We claim: 1. A plate configured to be coupled to a spacer to form an intervertebral implant, the plate comprising: a trailing surface defining a first opening of a first bone fixation hole and a first opening of a second bone fixation hole, the first opening of the first bone fixation hole spaced from the first opening of the second bone fixation hole in a first direction, the first bone fixation hole configured to receive a first bone fixation element such that the first bone fixation element secures the plate to a first vertebra, the second bone fixation hole configured to receive a second bone fixation element such that the second bone fixation element secures the plate to a second vertebra that is spaced from the first vertebra; a leading surface spaced from the trailing surface in a second direction that is substantially perpendicular to the first direction; a top surface configured to face the first vertebra when the plate is implanted; a bottom surface configured to face the second vertebra when the plate is implanted, the top surface spaced from the bottom surface in a third direction that is substantially perpendicular to both the first direction and the second direction, and the top surface facing in the third direction; a stop that protrudes from the top surface in the third direction, the stop including a first surface and a second surface, the second surface spaced from the first surface in the second direction and the second surface facing in the second direction, the first surface defining a first width measured along the first direction at a first location, the second surface defining a second width measured along the first direction at a second location, the first location aligned with the second location along the second direction, and the second width is greater than the first width, wherein the stop includes at least one projection that protrudes from the second surface in the second direction, the at least one projection configured to embed into the first vertebra to secure the plate to the first vertebra, and wherein a portion of the top surface is positioned between the second surface and a second opening of the first bone fixation hole with respect to the second direction. 2. The plate of claim 1 , wherein the second opening of the first bone fixation hole is partially defined by the top surface. 3. The plate of claim 1 , wherein the second opening of the first bone fixation hole is partially defined by the leading surface. 4. The plate of claim 1 , wherein the second opening of the first bone fixation hole is partially defined by the top surface, and the second opening of the first bone fixation hole is partially defined by the leading surface. 5. The plate of claim 1 , wherein the second surface is devoid of any bone fixation holes configured to receive a bone fixation element. 6. The plate of claim 1 , wherein the at least one projection includes a tooth. 7. The plate of claim 1 , wherein the at least one projection includes a blade. 8. The plate of claim 1 , wherein the stop is a first stop, and the plate includes a second stop that protrudes from the bottom surface in a direction opposite the third direction, the second stop including a third surface that faces in the second direction. 9. The plate of claim 8 , wherein a portion of the bottom surface is positioned between the third surface and a second opening of the second bone fixation hole with respect to the second direction. 10. The plate of claim 9 , wherein the portion of the top surface is a first portion of the top surface, the portion of the bottom surface is a first portion of the bottom surface, the first portion of the top surface is spaced in the third direction from the first portion of the bottom surface by a first distance measured in the third direction, a second portion of the top surface is spaced in the third direction from a second portion of the bottom surface by a second distance measured in the third direction, the second portion of the top surface and the second portion of the bottom surface both positioned between the first bone fixation hole and the second bone fixation hole with respect to the first direction, and the first distance is substantially equal to the second distance. 11. The plate of claim 1 , wherein the stop is configured to abut the first vertebra during insertion of the plate to prevent over-insertion of the plate into an intervertebral disc space defined between the first vertebra and the second vertebra. 12. The plate of claim 1 , wherein the plate defines a first length measured from the trailing surface to the leading surface along the second direction, and the stop defines a second length measured from the first surface to the second surface along the second direction, and the second length is less than half of the first length. 13. The plate of claim 12 , wherein a portion of the top surface is positioned between the second surface and a second opening of the first bone fixation hole with respect to the second direction. 14. The plate of claim 12 , wherein the stop is a first stop, the plate includes a second stop that protrudes from the bottom surface in a direction opposite the third direction, the second stop including a third surface that faces in the second direction, wherein an entirety of the third surface is: 1) between the leading surface and the trailing surface with respect to the second direction, and 2) offset with each of the plurality of bone fixation holes configured to receive a respective bone fixation element such that the respective bone fixation element secures the plate to the first vertebra with respect to the first direction, and at least a portion of the third surface is offset from both the leading surface and the trailing surface with respect to the third direction. 15. The plate of claim 12 , wherein a portion of the bottom surface is positioned between the third surface and a second opening of the second bone fixation hole with respect to the second direction. 16. The plate of claim 1 , wherein the plate defines a first length measured from the trailing surface to the leading surface along the second direction, the stop defines a second length measured from the first surface of the second surface along the second direction, and the second length is less than half the first length. 17. The plate of claim 16 , wherein the plate is devoid of a second stop that: 1) protrudes from the bottom surface, and 2) includes a third surface that is aligned with the second surface with respect to the third direction such that a straight line in the third direction intersects both the second surface and the third surface. 18. A plate configured to be coupled to a spacer to form an intervertebral implant, the plate comprising: a trailing surface defining a first opening of a first bone fixation hole and a second opening of a second bone fixation hole, the first opening spaced from the second opening in a first direction, the first bone fixation hole configured to receive a first bone fixation element such that the first bone fixation element secures the plate to a first vertebra, the second bone fixation hole configured to receive a second bone fixation element such that the second bone fixation element secures the plate to a second vertebra; a leading surface spaced from the trailing surface in a second direction that is substantially perpendicular to the first direction, the leading surface configured to face the spacer when the plate is coupled to the spacer; a top surface configured to face the first vertebra when th