Spinal construct and method

What is claimed is: 1. A spinal construct comprising: a first endplate being configured to engage a first vertebral surface; an expandable member connected with the first endplate and including a mating element, an outer body and an inner body movably positioned within an axial cavity of the outer body, the inner body including a single gear rack about a circumference of the inner body, the gear rack comprising a plurality of teeth disposed in a linear, serial configuration along a continuously curved outer surface of the inner body such that the teeth are spaced apart from an opposite inner surface of the inner body by a thickness of the inner body, the teeth each extending about only a portion of the circumference, the teeth each extending perpendicular to a longitudinal axis defined by the axial cavity, the teeth being configured for engagement with a surgical instrument to facilitate axial translation of the inner body relative to the outer body; and a second endplate being configured to engage a second vertebral surface and including an in-situ guide surface engageable with the mating element to connect the member with the second endplate. 2. A spinal construct as recited in claim 1 , wherein the first endplate includes an in-situ guide surface engageable with a second mating element of the member to connect the member with the first endplate. 3. A spinal construct as recited in claim 1 , wherein the in-situ guide surface includes a ramp. 4. A spinal construct as recited in claim 1 , wherein the in-situ guide surface includes a U-shaped configuration. 5. A spinal construct as recited in claim 1 , wherein the mating element includes a spherical joint. 6. A spinal construct as recited in claim 1 , further comprising a provisional frame that is configured to be connected with the first vertebral surface to fix the first endplate with the first vertebral surface. 7. A spinal construct as recited in claim 6 , wherein the frame includes a first support extending laterally from the first endplate and being connected in a transverse orientation with a second support that is configured to be connected with the first vertebral surface. 8. A spinal construct as recited in claim 1 , further comprising a spinal rod that is configured to be attached with the vertebral surfaces and a support connected with the member and the spinal rod. 9. A spinal construct as recited in claim 1 , wherein the member is axially translatable between a contracted configuration and an expanded configuration, and includes a lock for disposal in a selected orientation. 10. A spinal construct as recited in claim 1 , wherein the teeth are viewable through an opening in the outer body. 11. A spinal construct as recited in claim 1 , wherein the inner body comprises an axial slot that is spaced apart from the teeth, the outer body comprising an opening that is in communication with the axial slot, the spinal construct comprising a lock that is configured to extend through the opening and into the axial slot to fix the inner body relative to the outer body. 12. A spinal construct as recited in claim 1 , wherein the mating element comprises a head and a shaft extending from the head, the shaft comprising a thread form that is engaged with an end face of the member in threaded fixation. 13. A spinal implant system comprising: a member comprising an outer body and an inner body movably positioned within an axial cavity of the outer body, the inner body including only one gear rack about a circumference of the inner body, the gear rack comprising a plurality of teeth disposed in a linear, serial configuration along a continuously curved outer surface of the inner body such that the teeth are spaced apart from an opposite inner surface of the inner body by a thickness of the inner body, the teeth each extending about only a portion of the circumference, the teeth each extending perpendicular to a longitudinal axis defined by the axial cavity, the teeth being configured for engagement with a surgical instrument to facilitate axial translation of the inner body relative to the outer body between a contracted configuration and an expanded configuration, the member including a first mating element and a second mating element; a first endplate configured to engage a first vertebral surface and including a guide engageable with the first mating element within a patient body to connect the member with the first endplate; the second endplate configured to engage a second vertebral surface and including a guide engageable with the second mating element within a patient body to connect the member with the second endplate; and a provisional frame that is configured to be connected with the first vertebral surface to fix the first endplate with the first vertebral surface. 14. A spinal construct as recited in claim 13 , wherein the provisional frame is configured to be connected with the second vertebral surface to fix the second endplate with the second vertebral surface. 15. A spinal construct as recited in claim 13 , further comprising a spinal rod that is configured to be attached with the vertebral surfaces and a posterior fixator connected with the member and the spinal rod. 16. A method for treating a spine disorder, the method comprising the steps of: delivering a first endplate with a first holder extending laterally therefrom about vertebral tissue along a substantially posterior approach and adjacent a first vertebral surface; connecting a first stabilizer with the first holder and the first vertebral surface; delivering a second endplate with a second holder extending laterally therefrom about vertebral tissue along a substantially posterior approach and adjacent a second vertebral surface; connecting a second stabilizer with the second holder and the second vertebral surface; delivering a member along a substantially posterior approach for disposal between the endplates; engaging teeth that are disposed in a linear, serial configuration along a continuously curved outer surface of a gear rack of an inner body of the member with a surgical instrument to translate the inner body axially relative to an outer body of the member, the teeth being spaced apart from an inner surface of the inner body by a thickness of the inner body, the inner body including only one gear rack about a circumference of the inner body the teeth each extending about only a portion of the circumference, the teeth each extending perpendicular to a longitudinal axis defined by the inner body; and removing the holders and the stabilizers from adjacent the vertebral surfaces. 17. A method as recited in claim 16 , wherein the step of delivering the member includes engaging the member with a guide surface of at least one of the endplates. 18. A method as recited in claim 16 , further comprising selectively locking the member between a contracted configuration and an expanded configuration. 19. A method as recited in claim 16 , further comprising the step of locking the first endplate and the second endplate with the member in a selected orientation. 20. A method as recited in claim 16 , further comprising the steps of attaching a spinal rod with the vertebral surfaces and connecting a posterior fixator with the member and the spinal rod.