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Revolutionary TimCT Continuous Table move technology for large Field of View angiographies.
syngo NATIVE is an MR Angiography technique without intravenous contrast material.
syngo MapIt provides protocols and inline calculation of parametric maps of T1, T2 and T2* properties of the imaged tissue.
With syngo Inline VF, you can perform fully automatic volumetric assessment and ejection fraction calculation during the scan.
syngo Expert-i allows interactive remote assistance during the MR exam.
iPAT² allows iPAT in 2 phase-encoding directions simultaneously.
syngo Tissue 4D is an application card for visualizing and post-processing dynamic contrast-enhanced 3D datasets.
syngo TWIST is a time-resolved 3D MR angiography technique with sub-second temporal resolution.
Software package to evaluate and post-process spectroscopy acquisition data.
3D elastic motion correction.
syngo SWI is a new type of contrast technique in MRI that detects blood and iron deposits better than conventional methods.
Dedicated task card for quantitative processing of neuro perfusion data.
Automatic real-time calculation of perfusion parameters.
Automatic real-time calculation of trace-weighted images and ADC maps.
Image Fusion is a Software for matching and visualization of image data either from different modalities or from the same modality but from multiple examinations.
syngo GRACE is a Single Voxel Spectroscopy technique optimized for breast spectroscopy.
Simulated endoscopic views of the bronchi, vessels, colon and other hollow structures.
Simulated endoscopic views of the bronchi, vessels, colon and other hollow structures.
syngo DTI
syngo DTI Tractography
Composing of images from different table positions to show the complete anatomy.
Unique 3D Siemens sequences and protocols.
syngo BOLD 3D Evaluation is the comprehensive processing and visualization package for BOLD fMRI.
Automated positioning and alignment of the anatomy-related sagittal, coronal and axial slices.
AutoAlign Head LS allows automated positioning and alignment of the anatomy-related sagittal, coronal and axial slices.
Automated tool for cardiac function evaluation.
This application evaluates ventricular function based on a 3D heart model.
Special sequences and protocols for advanced cardiac imaging.
The Volume Rendering Technique is used to display a 2D projection of a 3D discretely sampled data set.
Dedicated task card for quantitative processing of neuro perfusion data.
Special sequences for quantitative flow determination studies.
syngo BreVis enables efficient breast reading and reporting.
syngo BreVis Biopsy is a professional solution for a fast and accurate MR biopsy workflow with automatic calculation of target coordinates.
syngo SPACE enables the acquisition of high resolution 3D datasets.
syngo REVEAL is an echo planar imaging (EPI) based diffusion weighted imaging technique for the body.
Automatic anatomical composing of multiple adjacent coronal or sagittal images.
Continuous Table move, powered by Tim for whole-body imaging (e.g. metastasis screening).
Inline BOLD Imaging
syngo ASL is an MR technique using the water in arterial blood as an endogenous contrast agent to evaluate perfusion.
Software package with sequences and protocols for single voxel proton spectroscopy.
Integrated multivoxel spectroscopy software package with sequences and protocols for 2D Chemical Shift Imaging (CSI).
Automatic intervertebral slice positioning in spine imaging.
Allows planning of several stations at once, e.g. on composed localizer images.
syngo DTI Evaluation allows quantitative evaluation of the rate and direction of water motion within a voxel.
Enhances inline BOLD imaging with motion correction during the acquisition of a BOLD exam.
Security package for general regulatory security rules.
Integrated software package with sequences and protocols for chemical shift imaging.
Automated tool for analysis of blood and cerebral spine fluid flow.
Integrated multivoxel spectroscopy software package with sequences and protocols for 3D Chemical Shift Imaging (CSI).
syngo BLADE dramatically reduces sensitivity to movement in MR scanning.
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