Intervertebral implants

The claimed invention is: 1. A method of implanting an interbody implant between adjacent bones to promote bone in-growth, the method comprising: inserting the interbody implant between adjacent bones; the interbody implant comprising: a porous structure comprising: a monolithic body formed of a porous material replicating a porosity of human bone; an interior cavity; and a plurality of openings in the monolithic body extending from the interior cavity to an exterior of the monolithic body; and a cage structure circumscribing a portion of the monolithic body in a transverse plane; positioning the plurality of openings against surfaces of the adjacent bones to allow for in-growth; and permitting the porous structure to compress in a superior-inferior direction between the adjacent bones and within the cage structure to stimulate biological bone growth within the adjacent bones. 2. The method of claim 1 , wherein inserting the interbody implant between adjacent bones comprises sliding a wedge-shaped end of the interbody implant along tissue surrounding the adjacent bones. 3. The method of claim 1 ; further comprising distracting the adjacent bones with the interbody implant. 4. The method of claim 3 , further comprising adjusting a lordosis angle of the adjacent bones with a wedge-shaped profile of the interbody implant. 5. The method of claim 1 , wherein inserting the interbody implant between adjacent bones comprises sliding smooth surfaces of the cage structure against soft tissue. 6. The method of claim 1 , wherein inserting the interbody implant between adjacent bones comprises shielding superior and inferior soft tissue from the porous structure with the cage structure. 7. The method of claim 1 , further comprising disposing bone cement or bone graft material within the interior cavity of the interbody implant. 8. The method of claim 1 , wherein inserting the interbody implant between adjacent bones comprises attaching a tool to a socket located on an end of the interbody implant, the socket formed entirely in the cage structure. 9. The method of claim 1 , wherein the cage structure comprises: a first cage defining a superior-most surface of the interbody implant flush with a superior-most portion of the porous structure; and a second cage defining an inferior-most surface of the interbody implant flush with an inferior-most portion of the porous structure; wherein the first cage and the second cage are separated in a superior-inferior direction and do not contact each other. 10. The method of claim 1 , further comprising preventing expansion of the porous structure in a transverse plane of the interbody implant with the cage structure. 11. The method of claim 1 , wherein permitting the porous structure to compress in a superior-inferior direction between the adjacent bones and within the cage structure comprises compressing the porous structure via movement of the adjacent bones. 12. The method of claim 1 , wherein insetting the interbody implant between adjacent bones further comprises inserting the interbody implant such that a support wall within the interior cavity is medially-laterally centered between the adjacent bones. 13. The method of claim 1 , further comprising facilitating columnar growth of bone between a superior surface of the porous structure and an inferior surface of the porous structure with openings of the porous structure that are aligned in a superior-interior direction. 14. The method of claim 1 , further comprising: making an incision in tissue proximate diseased tissue; retracting soft tissue proximate the diseased tissue; and removing the diseased tissue to provide space between the adjacent bones. 15. A method of implanting an interbody implant between adjacent bones to promote bone in-growth, the method comprising: inserting the interbody implant between adjacent bones, the interbody implant comprising: a porous structure comprising: a monolithic body formed of a porous material; an interior cavity; and a plurality of openings in the monolithic body extending from the interior cavity to an exterior of the monolithic body; and a cage structure circumscribing a portion of the monolithic body in a transverse plane, the cage structure comprising: an upper cage portion circumscribing a superior portion of the porous structure; and a lower cage portion circumscribing an inferior portion of the porous structure, wherein the upper cage portion is inferior-superiorly spaced from the lower cage portion; filling the interior cavity with bone cement or bone graft material; positioning the plurality of openings against surfaces of the adjacent bones to allow for in-growth; and preventing expansion of the porous structure in a transverse plane of the interbody implant with the cage structure. 16. The method of claim 15 , further comprising distracting the adjacent bones with the interbody implant to adjust a lordosis angle. 17. The method of claim 15 , wherein inserting the interbody implant between adjacent bones comprises: sliding smooth surfaces of the cage structure against soft tissue; and shielding superior and inferior soft tissue from the porous structure with the cage structure. 18. The method of claim 15 , further comprising: permitting the porous structure to compress in a superior-inferior direction between the adjacent bones and within the cage structure to stimulate biological bone growth within the adjacent bones; and facilitating columnar growth of bone between a superior surface of the porous structure and an inferior surface of the porous structure with openings of the porous structure that are aligned in a superior-inferior direction via compression of the porous structure. 19. The method of claim 15 , wherein the interbody implant is inserted in a medial-lateral direction.