Osteoarthritis can develop after an injury like a broken bone. Problems with how the bones line up can lead to abnormal loading which will destroy the cartilage that covers and protects the bones. Once this happens, patients experience substantial pain and disability. Researchers and doctors use planar x-rays to evaluate joints; but these are not always precise and are limited to two dimensions. Three-dimensional (3D) computed tomography (CT) can be used to look at the joints of the wrist in three dimensions, but is limited to static frames. Symptoms arising from joint instability often occur when the wrist is moving and when it is performing a functional task (opening a jar). Four dimensional computed tomography (4DCT) can detect dynamics changes in the small structures of the wrist with high temporal and spatial resolution. This novel imaging techniques provides a movie of bones in the wrist, in 3D, while in the scanner. In this proposal, the investigator's will use 4DCT and look at how joint alignment of the distal radius effects the joints in the wrist, and investigate how it relates to patient's function, description of pain and the presence of Osteoarthritis 10 years following fracture. This imaging will drive safer clinical research and practice and will develop tools that predict the risk of developing arthritis that will help doctors determine when surgery is necessary to prevent arthritis of the hand and wrist, and pain and disability.
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Hand Joint Spacing
Timeframe: 3 years