Markerless Motion Tracking for Motion-Compensated Clinical Imaging
Motion-compensated brain imaging can dramatically reduce image artifacts and
degradation associated with head motion. However, it has been slow to enter
routine clinical use, and remained largely a research tool. One possible reason
for this is the lack of a practical motion tracking method for the clinical setting.
Here we present the initial validation of a highly convenient markerless motion
tracking method, previously developed for motion-compensated PET imaging of rats,
for human head motion estimation in a mock imaging scenario. Sixteen reclining
volunteers followed the projected path of a robotically controlled laser beam
during a 2 min experiment in which their resulting head motion was simultaneously
tracked at 30 Hz from the anterior and posterior using the markerless system and
a marker-based system, respectively. Motion estimates were compared in a common
coordinate system and generally showed excellent agreement, especially in early
frames (RMSE of 1-3 mm). Larger discrepancies were associated with the unwanted
detection of non-rigid features which could be prevented in future studies. These
results are a promising first step in translating the markerless tracking system
to clinical use.