Spinal implant system and method

What is claimed is: 1. A method comprising: coupling an instrument to an implant by inserting a peg of the instrument into a threaded first cavity of the implant and engaging a thread of a shaft of the instrument with a thread of a second cavity of the implant; and uncoupling the instrument from the implant by disengaging the thread of the shaft from the thread of the second cavity and removing the peg from the first cavity. 2. The method recited in claim 1 , further comprising guiding the implant into an intervertebral space using the instrument after coupling the instrument to the implant and prior to uncoupling the instrument from the implant. 3. The method recited in claim 1 , wherein engaging the thread of the shaft with the thread of the second cavity comprises rotating a knob of the instrument relative to a sleeve of the instrument in a first rotational direction, the knob being coupled to the shaft, the method further comprising further rotating the knob relative to the sleeve in the first rotational direction after the thread of the shaft is engaged with the thread of the second cavity to translate the shaft axially relative to the sleeve. 4. The method recited in claim 3 , wherein translating the shaft axially relative to the sleeve causes extensions of the knob to be inserted into grooves in a handle of the instrument to prevent rotation of the knob relative to the sleeve and the handle in the first rotational direction. 5. The method recited in claim 4 , wherein disengaging the thread of the shaft from the thread of the second cavity comprises rotating the knob relative to the sleeve in an opposite second rotational direction such that the extensions are spaced apart from the grooves and rotation of the knob relative to the sleeve and the handle in the first rotational direction is permitted. 6. The method recited in claim 3 , wherein disengaging the thread of the shaft from the thread of the second cavity comprises rotating the knob relative to the sleeve in an opposite second rotational direction. 7. The method recited in claim 1 , further comprising recoupling the instrument to the implant after uncoupling the instrument from the implant, wherein recoupling the instrument to the implant comprises inserting the peg into the second cavity and engaging the thread of the shaft with a thread of the first cavity. 8. The method recited in claim 7 , further comprising guiding the implant into an intervertebral space using the instrument after recoupling the instrument to the implant. 9. The method recited in claim 7 , wherein engaging the thread of the shaft with the thread of the first cavity comprises rotating a knob of the instrument relative to a sleeve of the instrument in a first rotational direction, the knob being coupled to the shaft, the method further comprising further rotating the knob relative to the sleeve in the first rotational direction after the thread of the shaft is engaged with the thread of the first cavity to translate the shaft axially relative to the sleeve. 10. The method recited in claim 9 , wherein translating the shaft axially relative to the sleeve causes extensions of the knob to be inserted into grooves in a handle of the instrument to prevent rotation of the knob relative to the sleeve and the handle in the first rotational direction. 11. The method recited in claim 10 , wherein disengaging the thread of the shaft from the thread of the second cavity comprises rotating the knob relative to the sleeve in an opposite second rotational direction such that the extensions are spaced apart from the grooves and rotation of the knob relative to the sleeve and the handle in the first rotational direction is permitted. 12. The method recited in claim 9 , wherein disengaging the thread of the shaft from the thread of the second cavity comprises rotating the knob relative to the sleeve in an opposite second rotational direction. 13. The method recited in claim 1 , wherein the implant comprises: a perimeter wall; a first cap coupled to a top end of the wall; and a second cap coupled to a bottom end of the wall, the implant comprising an opening extending through the caps such that the first cap defines a first ledge extending from the wall to the opening and the second cap defines a second ledge extending from the wall to the opening. 14. The method recited in claim 13 , wherein an inner surface of the wall defines an aperture, the implant comprising a core positioned in the aperture, the opening extending through a thickness of the core. 15. The method recited in claim 13 , wherein a portion of the core is positioned between the cavities and the aperture. 16. The method recited in claim 1 , wherein the peg is free of threads. 17. The method recited in claim 1 , wherein the thread of the second cavity is a first thread and the first cavity comprises a second thread, the implant comprising: a body including perimeter wall having first and second windows, an inner surface of the body defining an aperture and a bore positioned between the first and second cavities, a first cap coupled to a top end of the wall, and a second cap coupled to a bottom end of the wall, and the implant comprising an opening extending through the caps such that the first cap defines a first ledge extending from the wall to the opening and the second cap defines a second ledge extending from the wall to the opening. 18. The method recited in claim 17 , wherein the implant comprises a core positioned in the aperture such that the core is viewable through the windows. 19. A method comprising: coupling an instrument to an implant by inserting a peg of the instrument into a threaded first cavity of the implant and engaging a thread of a shaft of the instrument with a thread of a second cavity of the implant; and uncoupling the instrument from the implant by disengaging the thread of the shaft from the thread of the second cavity and removing the peg from the first cavity, wherein engaging the thread of the shaft with the thread of the second cavity comprises rotating a knob of the instrument relative to a sleeve of the instrument in a first rotational direction, the knob being coupled to the shaft, the method further comprising further rotating the knob relative to the sleeve in the first rotational direction after the thread of the shaft is engaged with the thread of the second cavity to translate the shaft axially relative to the sleeve, wherein translating the shaft axially relative to the sleeve causes extensions of the knob to be inserted into grooves in a handle of the instrument to prevent rotation of the knob relative to the sleeve and the handle in the first rotational direction, wherein the implant comprises a perimeter wall, a first cap being coupled to a top end of the wall, a second cap being coupled to a bottom end of the wall, the implant comprising an opening extending through the caps such that the first cap defines a first ledge extending from the wall to the opening and the second cap defines a second ledge extending from the wall to the opening, and wherein an inner surface of the wall defines an aperture, the implant comprising a core positioned in the aperture, the opening extending through a thickness of the core. 20. A method comprising: coupling an instrument to an implant by inserting a peg of the instrument into a threaded first cavity of the implant and engaging a thread of a shaft of the instrument with a thread of a second cavity of the implant; uncoupling the instrument from the im