Enhanced Ultrasound Visualization for Procedure Guidance

Intra-cardiac procedures often involve fast-moving anatomic structures with large spatial extent and high geometrical complexity. Real-time visualization of the moving structures and instrument-tissue contact is crucial to the success of these procedures. Real-time 3D ultrasound is a promising modality for procedure guidance as it offers improved spatial orientation information relative to 2D ultrasound. Imaging rates at 30 fps enable good visualization of instrument-tissue interactions, far faster than the volumetric imaging alternatives (MR/CT). Unlike fluoroscopy, 3D ultrasound also allows better contrast of soft tissues, and avoids the use of ionizing radiation. The current key challenges in increasing the clinical adoption of 3D ultrasound include limited field of view, signal dropout, low resolution and poor rendering. A cardiac gated 3D mosaicing and visualization system is developed with an aim to address the limitations above. The system integrates electromagnetic position tracking with cardiac gating and leverages parallel computing for real-time instrument tip tracking in mosaiced 3D ultrasound volumes. User studies in clinical tasks show a 46 % reduction in task completion time