Cube replaces slice-by-slice, plane-after-plane, 2D acquisitions with one single 3D volume scan. You can easily reformat sub-millimeter, isotropic 3D Cube volume data into any plane—without gaps, and with the same resolution as the native plane. The new self-calibrating, parallel-imaging engine ARC helps to speed the sequence up and minimize artifacts. And you'll appreciate the exquisite tissue contrast.
- Neuro MRI. Cube provides you with contiguous, sub-millimeter, isotropic 3D data sets that can be easily reformatted into any plane, thus replacing multiple 2D scans. The SNR-rich, ultra-thin slices Cube can help visualize even small and subtle lesions without partial-volume averaging effect.
- MSK MRI. Cube generates contiguous, sub-millimeter, isotropic 3D data that you can easily reformat into any plane. Some tissue structures that can be best seen in oblique views, can now be easily examined. The SNR-rich, ultra-thin slices Cube can provide eliminate partial volume averaging effect, thus helping visualize even small and subtle lesions.
- Body MRI. Cube acquires contiguous, sub-millimeter, isotropic 3D data sets that can be easily reformatted into any plane, thus replacing multiple 2D scans. The SNR-rich, ultra-thin slices Cube can provide help to visualize even small and subtle lesions without partial volume averaging effect.
"You can't argue against 3D thin-slice, gap-free studies. This will change the way we scan."
Lawrence N. Tanenbaum, MD, FACR
Vice President and Medical Director
East Region of RadNet, Inc.
Image used above courtesy of Hopital St. Joseph, Paris, France.
Clinical & Economic Papers
Understand how 3D FSE can reduce scan time and generate thinner slices.
Learn how 3.0T MR brings new capabilities to the University of Wisconsin-Madison hospital and clinics.
Download Exploring Frontiers.
Review a prominent physician's clinical comparison of 2D and 3D.
Download The Clinical Proof of 2D Versus 3D.
Read how 3.0T imaging helps you inform management decisions.
Download More Than a Pretty Picture.
Explore how high-resolution, isotropic-voxel acquisition technique can improve quality and utility of diffusion-weighted and diffusion-tensor imaging.
Learn about new tools in MR upgrade that can expand imaging capabilities and increase clinical confidence.
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