Radiographic discernable sensors and orthopedic applications for same

What is claimed is: 1. A spinal orthopedic device comprising an implantable strain sensor comprising an indicator, the indicator including a first end and a second end, the first end being configured for direct or indirect fixation to the spinal orthopedic device, the second end comprising a first radiographically opaque material, the sensor further comprising a scale comprising a second radiographically opaque material, the scale being located in conjunction with the second end, wherein the strain sensor is a passive sensor such that a location of the second end with respect to the scale is discernible via X-ray imaging with no active interrogation of the first or second radiographically opaque materials. 2. The spinal orthopedic device of claim 1 , wherein the device is a spinal interbody device. 3. The spinal orthopedic device of claim 2 , wherein the device is a cervical device or is a lumbar device. 4. The spinal orthopedic device of claim 2 , wherein the device comprises an interbody spacer. 5. The spinal orthopedic device of claim 1 , further comprising an elastomer containing the first or second radiographically opaque material. 6. The spinal orthopedic device of claim 1 , wherein the first radiographically opaque material is a radiographically opaque fluid. 7. The spinal orthopedic device of claim 1 , wherein the second end is in mechanical communication with a piston. 8. The spinal orthopedic device of claim 7 , wherein the second end is in mechanical communication with the piston via an essentially incompressible fluid. 9. The spinal orthopedic device of claim 1 , wherein the device is a fixation rod. 10. The spinal orthopedic device of claim 1 , wherein the device is a spinal fusion device. 11. An artificial disc system comprising the spinal orthopedic device of claim 1 . 12. An orthopedic fixation plate comprising an implantable strain sensor comprising an indicator, the indicator including a first end and a second end, the first end being configured for direct or indirect fixation to the orthopedic fixation plate, the second end comprising a first radiographically opaque material, the sensor further comprising a scale comprising a second radiographically opaque material, the scale being located in conjunction with the second end, wherein the strain sensor is a passive sensor such that a location of the second end with respect to the scale is discernible via X-ray imaging with no active interrogation of the first or second radiographically opaque materials. 13. The orthopedic fixation plate of claim 12 , wherein the orthopedic fixation plate is a spine plate. 14. The orthopedic fixation plate of claim 13 , wherein the orthopedic fixation plate is a cervical spine plate. 15. The orthopedic fixation plate of claim 12 , further comprising an elastomer containing the first or second radiographically opaque material. 16. The orthopedic fixation plate of claim 15 , wherein the first radiographically opaque material is a radiographically opaque fluid. 17. The orthopedic fixation plate of claim 12 , wherein the second end is in mechanical communication with a piston. 18. The orthopedic fixation plate of claim 17 , wherein the second end is in mechanical communication with the piston via an essentially incompressible fluid. 19. A spinal orthopedic device comprising an implantable chemical sensor comprising an indicator attached to a surface of the spinal orthopedic device, the indicator including an analyte-sensitive material and a radiographically opaque component configured for movement in response to a dimensional change in the analyte-sensitive material, wherein the chemical sensor is a passive sensor such that the radiographically opaque component is discernible via X-ray imaging with no active interrogation of the radiographically opaque component. 20. The spinal orthopedic device of claim 19 , further comprising a scale, the scale being located in conjunction with the radiographically opaque component such that the location of the radiographically opaque component with respect to the scale is discernable via X-ray imaging with no active interrogation of the radiographically opaque component.