Abstract
Purpose: This work involves the development of a new digital tomosynthesis technique into a clinical prototype imaging system for the three-dimensional visualization of patient anatomy.
Material and Methods: The multiple projection algorithm (MPA) has been developed into a clinical prototype imaging system comprising a digital chain that is interfaced with an isocentric fluoroscopic unit to form an integrated DTS facility. Planes of varying orientations can be synthesized retrospectively on the basis of an acquired set of appropriate projection images extending over the whole volume of interest.
Results and Conclusion: The system provides an image reconstruction and processing facility that can effectively augment fluoroscopic examinations. Reconstruction times of a few seconds per plane have been achieved. The region of interest can be approached by tracking through cross-sections with user-selected orientations. Anatomical planes of particular interest can be identified and their reconstructed images can be stored. The characteristics of the image presentation modality have the potential to extend the field of current digital tomosynthesis applications to new areas in radiology and other clinical domains.