Gregor Thrmer1, Nikita Garnov1,
Jrgen Haase2, Thomas Kahn1, Michael Moche1,
Harald Busse1
1Diagnostic and Interventional
Radiology, Leipzig University Hospital, Leipzig, Germany; 2Physics
and Geosciences Department, Leipzig University, Leipzig, Germany
Localization
and tracking of devices in a closed-bore scanner may improve the accuracy and
workflow of MR-guided interventions and also reduce a potential user bias.
The goal was to evaluate the performance of a novel image-based approach for
device tracking which is demonstrated in a phantom experiment with a
robotically driven needle inside the magnet. The presented method is based on
the automatic localization of wireless MR-visible markers in poorly resolved
MR images. Integration of the localization algorithm into a custom-made pulse
sequence with interleaved anatomical imaging would provide a relatively
simple and safe alternative to other tracking approaches.