Spinal construct and method

What is claimed is: 1. A spinal construct comprising: a connector extending along a longitudinal axis between a first end and a second end, the first end comprising a passageway, a shaft of the second end being positioned within the passageway such that the second end can translate relative to the first end along the longitudinal axis, the ends each comprising a threaded hole extending through a top surface of the connector, wherein the first end comprises a first expandable member including an inner surface defining a cavity configured to receive a head of a first bone fastener and the second end comprises a second expandable member including an inner surface defining a cavity configured to receive a head of a second bone fastener, the cavities each including an opening extending through a bottom surface of the connector, the expandable members each comprising a retaining member positioned in a respective one of the cavities, an inner locking ring positioned in a respective one of the cavities and a notch that extends into a respective one of the inner surfaces, the openings each having a maximum diameter greater than a maximum diameter of each of the retaining members, the retaining members being configured to expand radially and then collapse back to their original form when one of the heads contacts one of the retaining members, the inner locking rings being configured to be pushed into one of the notches when one of the heads is received by one of the retaining members. 2. A spinal construct as recited in claim 1 , wherein the second end is rotatable relative to the first end about the longitudinal axis. 3. A spinal construct as recited in claim 1 , wherein the threaded holes are each configured to engage a set screw, the holes each extending transverse to the longitudinal axis. 4. A spinal construct as recited in claim 1 , further comprising a first set screw positioned in the threaded hole in the first end and a second set screw positioned in the threaded hole in the second end. 5. A spinal construct as recited in claim 1 , further comprising a first bone screw positioned in the first end and a second bone screw positioned in the second end. 6. A spinal construct as recited in claim 1 , wherein the inner locking rings are expandable and are made of silicone having a hardness from about 40 durometer to about 80 durometer. 7. A spinal construct as recited in claim 1 , wherein the shaft is slidably disposed within the passageway. 8. A spinal construct as recited in claim 1 , wherein the second end is threaded to function as a screw so as to rotate freely within the passageway. 9. A spinal construct as recited in claim 1 , wherein the inner surfaces each extend perpendicular to the longitudinal axis, the retaining members each comprising a wall that engages a respective one of the inner surfaces, the walls each extending perpendicular to the longitudinal axis. 10. A spinal construct comprising: a connector extending along a longitudinal axis between a first end and a second end, the first end comprising a passageway, a shaft of the second end being positioned within the passageway such that the second end can translate relative to the first end in opposite directions along the longitudinal axis; a first bone screw coupled to the first end; a second bone screw coupled to the second end; a first set screw positioned in a threaded hole in the first end; and a second set screw positioned in a threaded hole in the second end, the threaded holes extending through a top surface of the connector, wherein the first end comprises a first expandable member including an inner surface defining a cavity configured to receive a head of the first bone screw and the second end comprises a second expandable member including an inner surface defining a cavity configured to receive a head of the second bone screw, the cavities each including an opening extending through a bottom surface of the connector, the expandable members each comprising a retaining member positioned in a respective one of the cavities, an inner locking ring positioned in a respective one of the cavities and a notch that extends into a respective one of the inner surfaces, the openings each having a maximum diameter greater than a maximum diameter of each of the retaining members, the retaining members being configured to expand radially upon direct engagement with one of the heads and then collapse back to their original form, the inner locking rings each being configured to be pushed into one of the notches when one of the heads is received by one of the retaining members. 11. A spinal construct as recited in claim 10 , wherein the second end is rotatable relative to the first end about the longitudinal axis. 12. A spinal construct as recited in claim 10 , wherein the shaft is slidably disposed within the passageway. 13. A spinal construct as recited in claim 10 , wherein the second end is threaded to function as a screw so as to rotate freely within the passageway. 14. A spinal construct as recited in claim 10 , wherein the holes each extend transverse to the longitudinal axis. 15. A spinal construct as recited in claim 10 , wherein the shaft is cylindrical. 16. A spinal construct comprising: a connector extending along a longitudinal axis between a first end and a second end, the first end comprising a passageway, a shaft of the second end being positioned within the passageway such that the second end can translate relative to the first end in opposite directions along the longitudinal axis, the ends each comprising an expandable member and a threaded hole configured to engage a set screw, the threaded holes extending through a top surface of the connector; a first bone screw coupled to the expandable member of the first end; and a second bone screw coupled to the expandable member of the second end, wherein the expandable members each comprise an inner surface defining a cavity, a retaining member positioned in the cavity, an inner locking ring positioned in the cavity and a notch that extends into the inner surface, the retaining member being positioned between the inner locking ring and a respective one of the threaded holes, the cavities each including an opening extending through a bottom surface of the connector, the openings each having a maximum diameter greater than a maximum diameter of each of the retaining members, the retaining members being configured to expand radially and then collapse back to their original form when one of the screws contacts one of the retaining members, the inner locking rings each being configured to be pushed into one of the notches when one of the screws is received by one of the retaining members. 17. A spinal construct as recited in claim 16 , wherein the second end is rotatable relative to the first end about the longitudinal axis. 18. A spinal construct as recited in claim 16 , wherein the shaft is slidably disposed within the passageway. 19. A spinal construct as recited in claim 16 , wherein the second end is threaded to function as a screw so as to rotate freely within the passageway. 20. A spinal construct as recited in claim 16 , wherein the shaft is cylindrical.