Method and apparatus for post-operative tuning of a spinal implant

What is claimed is: 1. A tunable implant configured to be positioned within a patient, said tunable implant comprising: a pair of support plates, each support plate having a flange extending at a non-zero angle relative to each support plate, wherein each flange is operable to engage a side of a vertebra of the patient; a bladder mechanism including a plurality of bladders between said pair of support plates, wherein each bladder includes a sensor to sense a parameter; and a bladder control system positioned within said bladder mechanism operable to receive said parameter from each sensor and to adjust a pressure in each bladder of the plurality of bladders in a real time manner; wherein each support plate includes a first segment and a second segment connected with a hinge and configured to enable the tunable implant to be folded in a manner to make said tunable implant substantially smaller than in an unfolded state, wherein said first segment is folded towards said second segment via said hinge, and unfolded for fixation to the vertebra during implantation. 2. The tunable implant as defined in claim 1 wherein each flange defines a passageway operable to receive a bone screw to secure the tunable implant to the vertebra. 3. A tunable implant configured to be positioned within a patient, said tunable implant comprising: a pair of support plates, each support plate having a flange extending at a non-zero angle relative each support plate and configured to engage a vertebra; an adjustable portion having a plurality of regions, each region having a sensor and at least one force control beam configured to apply a force to a spring in each region, wherein upon adjusting said adjustable portion to effect at least one of a range of motion or a stiffness of said adjustable portion, said tunable implant provides a changed performance; wherein each sensor is operable to sense at least one of a force parameter or a temperature parameter; and a force control system positioned within said implant operable to receive said force parameter or temperature parameter from each sensor and is operable to adjust said adjustable portion by adjusting a tension on said spring in each region with each force control beam in a real-time manner. 4. The tunable implant as defined in claim 3 wherein said force parameter is selected from a group comprising pressure, stress, strain, loading force, torsional force, and frictional force. 5. The tunable implant as defined in claim 1 wherein said bladder control system is operable to be actuated telemetrically in a non-surgical procedure. 6. The tunable implant as defined in claim 1 wherein said bladder control system includes a resonant circuit. 7. A tunable implant system comprising: a tunable implant configured to be positioned within a patient, said tunable implant comprising: a pair of support plates, each support plate having a flange extending at a non- zero angle relative to each support plate, wherein each flange is operable to engage a side of a vertebra of the patient; a bladder mechanism including a plurality of bladders between said pair of support plates, wherein each bladder includes a sensor to sense a parameter; and a bladder control system positioned within said bladder mechanism operable to receive said parameter from each sensor and to adjust a pressure in each bladder of the plurality of bladders in a real time manner; wherein each support plate includes a first segment and a second segment connected with at least one hinge and configured to enable said tunable implant to be folded in a manner to make said tunable implant substantially smaller than in an unfolded state, wherein said tunable implant is configured to be folded during insertion for implantation, wherein said first segment is folded towards said second segment via said at least one hinge, and unfolded for fixation to the vertebra during implantation; and a patient sensor operable to be attached to the patient during a motion analysis; wherein said bladder control system positioned within said bladder mechanism is operable to receive sensed parameters from said patient sensor. 8. The tunable implant as defined in claim 4 wherein said at least one hinge comprises a first hinge and a second hinge. 9. The tunable implant system as defined in claim 7 wherein said tunable implant comprises a plurality of said tunable implants. 10. The tunable implant system as defined in claim 9 wherein each said bladder control system is operable to be controlled telemetrically.