Thanks to unprecedented temporal system stability and high signal-to-noise, the subtle brain activation signal treats in the foreground and can be captured much more reliably. The Signa® MR750 3.0T delivers routine, accurate, repeatable fMRI studies with 60% more spatial resolution in the same scan time and with reduced number of paradigm repetitions.
Combining multiple series into one, VIBRANT - IDEAL helps reduce exam time and ensure "can’t miss" fat suppression in breast studies. With no need for shimming and ARC parallel imaging on the Signa® MR750 3.0T, your productivity benefits are substantial.
This system is ready for clinical prime time. Read about the details behind this remarkable technology.
With Cube, you can more easily reformat sub-millimeter isotropic 3D volume image data from a single acquisition into any plane-axial, sagittal, coronal or oblique - with no gaps or loss of resolution. New, self-calibrated ARC parallel imaging engine speeds up the acquisition, while eliminating aliasing even in small FOV imaging.
3D MERGE: Generating excellent gray-white matter contrast in the spinal cord without sacrificing SNR, this high-definition, 3D application acquires 1 mm slices in a clinically relevant scan time, enabling reformats in different planes.
Time of Flight imaging on the Signa® MR750 3.0T gives you more -more spatial resolution and more contrast between the flowing blood and the surrounding tissue- for more small vessel detail more confident diagnoses.
Providing exceptionally uniform, consistent fat suppression across the entire image in a very large field of view, LAVA-IDEAL produces four contrasts in just one acquisition, for confident diagnoses and fewer repeat exams.
Now delivering improved performance, which lets you more than double the slices or alternative to acquire more diffusion directions in the same scan time, DTI/FiberTrak lets you visualize white matter trajectories in the brain.
Signa® MR750 3.0T extends the remarkable motion-correction capabilities to all imaging planes PROPELLER 2.0 significantly reduces motion artifacts caused by voluntary patient movement, and tremor or physiological motion including blood- and CSF-flow artifacts. PROPELLER HD also optimizes SNR, capitalized as striking tissue contrast. PROPELLER HD T2 and T2 FLAIR sequences do not compromise image resolution or increase scan time. When run with a DWI sequence, PROPELLER HD greatly reduces tissue-air and bone-tissue susceptibility artifacts, such as those caused by metal implants.
With its ability to obtain both in-phase and out-of-phase images in one acquisition, IDEAL can be used to scan the entire spine to better identify and locate metastasis.
With a two-fold improvement in overall signal stability, 60% more slices and greater spatial resolution, this suite of applications for neurofunctional brain mapping provides exceptional performance in the most challenging neuro studies.
