Self-pivoting spinal implant and associated instrumentation

We claim: 1. An insertion instrument for implanting an intervertebral implant into an intervertebral disc space defined between first and second vertebral bodies, the insertion instrument comprising: an outer member elongate along a longitudinal axis, the outer member having a proximal end and a distal end spaced from the proximal end along the longitudinal axis, the outer member defining a cannula; and an inner member having a proximal end and a distal end spaced from the proximal end of the inner member along the longitudinal axis, a portion of the inner member disposed in the cannula of the outer member, the distal end of the inner member including a first arm and a second arm together forming a grasping portion of the insertion instrument, the grasping portion including a first interior surface of the first arm and a second interior surface of the second arm, the first and second interior surfaces each including a plurality of engagement surfaces configured to engage a plurality of surfaces of a post of the intervertebral implant, the inner member translatable along the longitudinal axis between a first position, a second position, and a third position with respect to the outer member, wherein, in the first position, the first and second interior surfaces are separated from one another a first distance along a first direction that is transverse to the longitudinal axis and, in the second position, the first and second interior surfaces are separated from one another a second distance along the first direction, the second distance being less than the first distance, and the third position is intermediate the first and second positions; and wherein the distal end of the outer member includes a third arm and a fourth arm, an interior surface of the third arm faces an interior surface of the fourth arm, and at least a portion of each of the first and second arms is located between the third and fourth arms. 2. The insertion instrument of claim 1 , wherein the first arm and the second arm each include a distal tip, the distal tip of the first arm converging toward the distal tip of the second arm so as to at least partially surround the post. 3. The insertion instrument of claim 1 , wherein the first and second arms are separated by a split extending proximally from the distal end of the inner member toward a proximal end of the inner member along the longitudinal axis, wherein the split is configured to provide resiliency to the first and second arms in the first direction. 4. The insertion instrument of claim 1 , wherein the inner member is configured to move proximally in relation to the outer member along the longitudinal axis when translating from the first position to the second position. 5. The insertion instrument of claim 1 , wherein, in the third position, the first and second interior surfaces are separated from one another a third distance transverse to the longitudinal axis, the third distance being less than the first distance and greater than the second distance. 6. The insertion instrument of claim 1 , further comprising: a first feature formed on an exterior surface of the first arm; a second feature formed on an exterior surface of the second arm; a third feature formed on the interior surface of the third arm; and a fourth feature formed on the interior surface of the fourth arm, wherein the third and fourth features are configured to bear against the first and second features, respectively, so as to prevent the first arm and the second arm from separating from one another in the first direction as the inner member translates proximally toward the second position along the longitudinal axis with respect to the outer member. 7. The insertion instrument of claim 6 , wherein: the first feature comprises a first linear tapered surface of the exterior surface of the first arm, the first linear tapered surface tapering inward toward the proximal end of the inner member; and the second feature comprises a second linear tapered surface of the exterior surface of the second arm, the second linear tapered surface tapering inward toward the proximal end of the inner member. 8. The insertion instrument of claim 7 , wherein: the third feature comprises a third tapered surface of the interior surface of the third arm, the third tapered surface tapering inward toward the proximal end of the outer member; and the fourth feature comprises a fourth tapered surface of the interior surface of the fourth arm, the second tapered surface tapering inward toward the proximal end of the outer member. 9. The insertion instrument of claim 8 , wherein the first arm comprises a first longitudinally extending surface located on the exterior surface of the first arm proximally of the first linear tapered surface, the second arm comprises a second longitudinally extending surface located on the exterior surface of the second arm proximally of the second linear tapered surface, the third arm comprises a third longitudinally extending surface located on the interior surface of the third arm proximally of the third linear tapered surface, and the fourth arm comprises a fourth longitudinally extending surface located on the interior surface of the fourth arm proximally of the fourth linear tapered surface, wherein the first and second longitudinally extending surfaces translate adjacent the third and fourth longitudinally extending surfaces when the inner member moves between the third and second positions. 10. The insertion instrument of claim 9 , wherein, the first, second, third and fourth arms are cooperatively sized and configured such that, when the inner member is at the second position, rotation of the post relative to the grasping portion is prevented about a second direction perpendicular to each of the first direction and the longitudinal axis such that the plurality of engagement surfaces remains engaged to the plurality of surfaces of the post. 11. The insertion instrument of claim 10 , wherein the inner member further comprises at least one transversely extending surface located transversely between the third arm and the fourth arm of the outer member, the at least one transversely extending surface configured to engage at least a portion of the intervertebral implant in a manner limiting articulation of the intervertebral implant relative to the grasping portion when the inner member is at the second position, the third position, or between the second and third positions. 12. The insertion instrument of claim 11 , wherein: the first arm defines a first linearly tapered surface on an exterior surface of the first arm; the second arm defines a second linearly tapered surface on an exterior surface of the second arm, the first and second linearly tapered surfaces converging toward one another in a distal direction along the longitudinal axis; and the first and second linearly tapered surfaces are sized and oriented to abut respective corresponding surfaces of the intervertebral implant in a manner limiting articulation of the intervertebral implant relative to the grasping portion when the inner member is at the second position, the third position, or between the second and third positions. 13. The insertion instrument of claim 11 , wherein the first, second, third and fourth arms are cooperatively sized and configured such that, when the inner member is at the third position, 1) rotation of the post relative to the grasping portion about the second direction is allowed such that each of the plurality of engagement surfaces are adjacent sequential of the plurality of surfaces of the post as the post rotates, and 2) the post is prevented from exiting the grasping porti