Fracture fragment mobility testing for vertebral body procedures

What is claimed: 1. A method for diagnostic testing of a treatment area for receiving a non-fluid implant, comprising: inserting an expandable balloon into the treatment area; capturing a first image of at least one of the treatment area and the expandable balloon and displaying the first image; inflating the expandable balloon within the treatment area; capturing a second image of at least one of the treatment area and the expandable balloon while inflating the expandable balloon and displaying the second image; comparing the first and second images of at least one of the treatment area and the expandable balloon to determine a difference in position of a bone located in the treatment area to determine the mobility of bone within the treatment area in response to inflation of the expandable balloon; deflating the expandable balloon; and performing a subsequent procedure to insert the non-fluid implant within the treatment area. 2. The method of claim l, further comprising: injecting a contrast agent within the expandable balloon; and capturing an image of the injected contrast agent and displaying the image; and comparing the image with at least one of the first and second images to determine a difference in position of at least one of the contrast agent and the bone to determine the mobility of the bone in the treatment area in accordance with a size or shape of the expandable balloon after injecting the contrast agent. 3. The method of claim 2 , wherein the treatment area is a vertebral body and determining the mobility of the bone in the treatment area comprises determining the mobility of a fractured portion of the vertebral body. 4. The method of claim 3 , further comprising: adjusting a position of the expandable balloon within the treatment area; and re-inflating the expandable balloon to determine where a fault line is located on the fractured bone in the treatment area. 5. The method of claim 1 , further comprising: determining that a fracture of the bone is immobile; and performing the subsequent procedure by injecting cement into the cavity defined by the access corridor within the treatment area, without moving bone. 6. The method of claim 1 , further comprising: wherein when the bone within the treatment area is determined to be mobile, creating a cavity within an interior of the fractured bone. 7. The method of claim 1 , wherein mobility of the bone within the treatment area is correlated to at least one of mobility of a fracture of the bone, compressibility of an interior of the bone, a presence of sclerotic bone areas within the interior of the bone, and a presence of hardened bone due to tumors. 8. The method of claim 1 , further comprising: sensing at least one of a volume and pressure of an inflatable medium used during inflation of the expandable balloon within the treatment area; tracking a change in the at least one of a volume and pressure data to determine a difference the mobility of bone within the treatment area in response to inflation of the expandable balloon.