Radiographic discernable sensors and orthopedic applications for same

What is claimed is: 1. 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 an orthopedic implant, 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 implantable strain sensor of claim 1 , further comprising a housing, the housing containing the indicator and the scale. 3. The implantable strain sensor of claim 1 , wherein the indicator comprises an elongated rod or an extendable material. 4. The implantable strain sensor of claim 1 , the scale comprising multiple features, each feature having a cross sectional dimension of from about 0.1 millimeters to about 1 millimeter. 5. The implantable strain sensor of claim 1 , the second end having a width of from about 0.1 millimeters to about 1 millimeter. 6. An orthopedic implant comprising the implantable strain sensor of claim 1 attached thereto. 7. The orthopedic implant of claim 6 , wherein the strain sensor is attached to an exterior surface of the orthopedic implant or is within a cannula of the orthopedic implant. 8. The implantable strain sensor of claim 1 , wherein the radiographically opaque material comprises tungsten, stainless steel, tantalum, mercury, gallium, galistan, a rare earth nitrate, gold, bismuth, gadolinium oxysulfide, polydimethyl siloxane, or an acrylic elastomer. 9. A method for determining health of orthopedic tissue comprising: placing orthopedic tissue under a load, the orthopedic tissue having affixed thereto an orthopedic implant and a strain sensor, the strain sensor comprising an indicator, the indicator including a first end and a second end, the first end being directly or indirectly attached to the orthopedic implant, the second end comprising a first radiographically opaque material, the sensor further comprising a scale, the scale comprising a second radiographically opaque material; examining the orthopedic tissue via an X-ray imaging process while the orthopedic tissue is under the load, the examination comprising no active interrogation of the first or second radiographically opaque materials, the X-ray imaging providing one or more images of the scale and the second end of the indicator. 10. The method of claim 9 , further comprising examining the orthopedic tissue via the X-ray imaging process while the orthopedic tissue is under no load, and comparing the examination results. 11. An implantable chemical sensor comprising an indicator, 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. 12. The implantable chemical sensor of claim 11 , wherein the analyte-sensitive material comprises an analyte-sensitive hydrogel or comprises a pH sensitive hydrogel. 13. The implantable chemical sensor of claim 11 , wherein the radiographically opaque component is an end of the analyte-sensitive material. 14. The implantable chemical sensor of claim 11 , wherein the radiographically opaque component is confined within a track. 15. The implantable chemical sensor of claim 11 , the indicator further comprising an indicator component in mechanical communication with the analyte-sensitive material, the indicator component including the radiographically opaque component. 16. The implantable chemical sensor of claim 11 , the analyte-sensitive material comprising a binding molecule or an analogue molecule for the analyte. 17. The implantable chemical sensor of claim 11 , 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. 18. The implantable chemical sensor of claim 11 , further comprising a semi-permeable membrane. 19. The implantable chemical sensor of claim 11 , comprising multiple analyte-sensitive materials each sensitive to at least one analyte. 20. The implantable chemical sensor of claim 11 , wherein the analyte-sensitive material is sensitive to glucose. 21. An orthopedic implant comprising the implantable chemical sensor of claim 11 .