Intervertebral implant

What is claimed is: 1. An intervertebral spacer for therapeutic treatment of a patient, comprising: a link sized and dimensioned to fit within an intervertebral space in the patient and configured to maintain a separation of two adjacent vertebrae for a period of time; a rigid guiding object insertable into the patient, the rigid guiding object and the link sized to be insertable into the patient using a minimally invasive surgical (MIS) approach; a pivot pin rotatably retained within a mating chamber formed within the link, wherein the pivot pin is reversibly mateable with the guiding object so that the link may be inserted into the patient, and the pivot pin is rotatable such that an orientation of the link may be changed during or after insertion; and a radiused nut retained within a mating radiused chamber formed within the pivot pin, wherein the radiused nut moves with the pivot pin. 2. The spacer of claim 1 , wherein the link further includes at least one spherical bearing configured to limit a range of motion of the pivot pin. 3. The spacer of claim 1 , further including a slot formed within the pin to allow sliding passage of the guiding object. 4. The spacer of claim 1 , wherein the pivot pin permits a range of rotation of the link of about 35 to 145 degrees. 5. The spacer of claim 1 , further including a tapered edge formed along at least one end of the link. 6. A method of spacing apart vertebrae of a patient, comprising: inserting the intervertebral spacer of claim 1 into the body through a tube extending from outside of the patient's body into the patient's body. 7. The method of claim 6 , further including: passing a flexible line through an aperture formed in a leading end of the link, the leading end defined as the end first advanced into the intervertebral space, the line passing from outside of the patient's body, through the aperture, and back outside the patient's body, the line having sufficient strength to guide the leading end by exerting a force upon the leading end when the link is advanced into the intervertebral space. 8. An intervertebral spacer for therapeutic treatment of a patient, comprising: a link sized and dimensioned to fit within an intervertebral space in the patient and configured to maintain a separation of two adjacent vertebrae for a period of time, the link being insertable into the patient through a tube using a reduced size minimally invasive surgical (MIS) incision; a pivot pin rotatably retained within a mating chamber formed within the link, wherein the pivot pin is reversibly mateable with a guiding member so that the link may be inserted into the patient, and the pivot pin is rotatable such that an orientation of the link may be changed during or after insertions; and a radiused nut retained within a mating radiused chamber formed within the pivot pin, wherein the radiused nut moves with the pivot pin. 9. The spacer of claim 8 , wherein a trailing end of the link is pushable to advance the link into the vertebral space. 10. The spacer of claim 8 , further including an elongated guiding member configured to pass into the body and push the link into the intervertebral space. 11. The spacer of claim 8 , further including an elongated guiding member configured to extend from outside of the patient's body into the patient's body, and to push the link within the intervertebral space. 12. The spacer of claim 8 , wherein the link includes one or more apertures through which bone of the patient may grow. 13. The spacer of claim 8 , wherein the link includes a therapeutic substance operative to promote at least one of healing, anti-microbial growth, and bone growth. 14. The spacer of claim 8 , wherein the link includes an aperture formed in at least one end of the link, the aperture sized to admit passage of a flexible line passable through the aperture when the link is within the intervertebral space to extend outside of the patient, the link configured to rotate within the intervertebral space when a force is exerted upon the line. 15. The spacer of claim 8 , wherein the link further includes at least one spherical bearing configured to limit a range of motion of the pivot pin. 16. A method of spacing apart vertebrae of a patient, comprising: inserting the intervertebral spacer of claim 8 into the body through a tube extending from outside of the patient's body into the patient's body. 17. The method of claim 16 , further including: passing a flexible line through an aperture formed in a leading end of the link, the leading end defined as the end first advanced into the intervertebral space, the line passing from outside of the patient's body, through the aperture, and back outside the patient's body, the line having sufficient strength to guide the leading end by exerting a force upon the leading end when the link is advanced into the intervertebral space. 18. An intervertebral spacer for therapeutic treatment of a patient, comprising: a link sized and dimensioned to fit within an intervertebral space in the patient and configured to maintain a separation of two adjacent vertebrae for a period of time; and a pivot pin rotatably retained within a mating chamber formed within the link, wherein the pivot pin is reversibly mateable with a guiding object so that the link may be inserted into the patient, and the pivot pin is rotatable such that an orientation of the link may be changed during or after insertion a radiused nut retained within a mating radiused chamber formed within the pivot pin, wherein the link further includes at least one spherical bearing configured to limit a range of motion of the pivot pin, wherein the radiused nut moves with the pivot pin, and wherein the radiused nut is limited its movement by another bearing element. 19. The spacer of claim 18 , wherein the pivot pin permits a range of rotation of the link of about 35 to 145 degrees.