X-ray-Induced Acoustic Computed Tomography (XACT): Initial Experiment on Bone Sample.

X-ray induced acoustic computed tomography (XACT) is a unique hybrid imaging modality that combines high X-ray absorption contrast with high ultrasonic resolution. X-ray radiography and computerized tomography (CT) are currently the gold standards for two-dimensional and three-dimensional imaging of skeletal tissues, though there are important properties of bone, such as elasticity and speed of sound, that these techniques cannot measure. Ultrasound is capable of measuring such properties, though current clinical ultrasound scanners cannot be used to image the interior morphology of bones because they fail to address the complicated physics involved for exact image reconstruction; bone is heterogeneous and composed of layers of both cortical and trabecular bone, which violates assumptions in conventional ultrasound imaging of uniform speed of sound. XACT, in conjunction with the time-reversal algorithm, is capable of generating precise reconstructions, and, by combining elements of both X-ray and ultrasound imaging, XACT is potentially capable of obtaining more information than any single of these techniques at low radiation dose. This paper highlights X-ray-induced acoustic detection through linear scanning of an ultrasound transducer and the time-reversal algorithm to produce the first-ever XACT image of a bone sample. Results of this study should prove to enhance the potential of XACT imaging in the evaluation of bone diseases for future clinical use.