In traditional 2D imaging, signal change of small lesions can remain undetected in cases where the average slice thickness is between 3 and 6 mm. But 3D imaging with high spatial resolution in three directions allows you to detect even the smallest lesions. That’s the power of syngo SPACE.

Once an isotropic 3D data set is acquired, each slice orientation can be reconstructed. Even retrospectively or along curved lines. Improving diagnosis as well as therapy planning, in particular for complex surgeries. syngo SPACE, with high resolution in all three planes can now substitute multiple 2D scans in axial, sagittal, and coronal orientations. With isotropic resolution and contrasts not possible before, syngo SPACE can better depict the complex relationship between anatomical structures and pathological changes.

Previously, 3D imaging was not widely accepted because it took too much time. And it was only possible to acquire 3D T1 weighted data. syngo SPACE is the first technique that provides 3D imaging in other contrasts, namely T2 and Dark Fluid.

The future of MRI is in 3D

syngo SPACE is truly a new paradigm in MRI. Optimized for the brain, inner ear, spine, pelvis, and MRCP, syngo SPACE enables you to replace time-consuming multiple 2D acquisitions with one 3D image. And combined with iPAT, syngo SPACE takes only a few minutes.

Now you can do so much more in 3D with syngo SPACE.