Increased Performance

An Unsurpassed Foundation

  • Maximum performance gradient and shim coils combined with AVANCE NEO electronics form the most powerful basis for your MRI instrument
  • High power shim amplifiers minimize artifacts in extremely shim sensitive sequences such as TrueFSIP and maximize quality in EPI
  • Leading duty cycle performance high power gradients for conduction of highly demanding sequences such as fMRI or first pass tracer uptake in the heart
  • AVANCE NEO electronics allow gradient resolutions of 1 μs, and enable faster real time decisions than ever
  • Flexible configuration of up 24 transmit and 16 receive channels ensures scalability for future applications 


Largest Preclinical Coil Portfolio

  • MRI CryoProbes for SNR boost allowing for up to 6 times faster measurements and/or increased resolution
  • Specialized coils, such as ASL- and optogenetic coils
  • Parallel Transmit coils with up to 8 channels
  • Phased array coils with up to 16 channels
  • Full range of classic room-temperature 1H- and X-nuclei coils


ParaVision 360’s Leading Methods

  • All common spin- and gradient echo and spectroscopy methods
  • All standard, EPI and short echo imaging methods, such as DTI-spiral, UTE, and T1 EPI, for diffusion, perfusion, fMRI, flow imaging, and relaxometry
  • Unique IntraGate based FLASH and UTE methods for self-gated wireless cardiac and respiratory imaging
  • Fat chemical shift artifact-corrected RARE images

Simplified and Expediated Workflows

Expediated Set-ups

  • Combinations of up to 4 RF coils simultaneously with active detuning
  • Full automatic hardware recognition of RF coils and gradient and shim coils for software-controlled peak power limits


Efficient Scanning 

  • Ready-to use, in vivo, pre-optimized protocols and scan programs guarantee best results from day one
  • Maximal data consistency with ASL examination guide, which significantly reduces user bias
  • Full heart cardiac assessment faster than ever before with IntraGateUTE
  • ParaVision 360 software's ease of use of a clinical software combined with Bruker's open sequence programming framework


Expansive Reconstruction and Analysis

  • Fast and accurate post-processing with 2D and 3D image co-registration for PET and/or MRI data, fused images, image analysis with profiles, histograms, and real-time update of ROI values
  • Image time course analysis and multi-parametric fitting, surface and volume rendering, and image stitching
  • Professional and customizable data reports containing all scan parameters
  • Database with a hierarchical sorting function as well as a free text search

A Protected Investment

An Instrument Prepared for the Future

  • New age AVANCE NEO electronics guarantee access to software upgrades including future methods, sequences, and modules
  • Access to PET/MR instruments


Continuous Support

  • On-site and in-house trainings and webinars
  • Free email and phone hotlines


A Secured Investment

  • LabScape maintenance agreements with quality procedures
  • LabScape Comprehensive covering all technical issues up to and including full system replacement
MRI CryoProbe leads to average SNR increase of factor 2.8 at 9.4 T in mouse brain as opposed to room-temperature mouse brain coil
Acquisition details: FLASH, resolution: (78 x 78 x 500) µm³, TR: 400 ms, TE: 3.8 ms, total time: 3 min. 24 s
Fat-water separation imaging in RARE leads to fat chemical shifted corrected images in mouse at 7 T
Acquisition details: TE: 24 ms, TR: 350 ms, Resolution: (208 x 188) µm², Slice thickness: 1 mm, TA: > 1 m 7 s resp. trig. per slice
Arterial Spin Labeling Examination Guide
Courtesy: E. Barbier, L. Hirschler, J. Warnking, Grenoble Institute of Neuroscience
The CASL Workflow Package was developed in cooperation with Emmanuel Barbier, Grenoble Institute of Neuroscience



Due to the short echo time and radial readout of UTE, self-gated IntraGateUTE demonstrates reduced flow and motion artifacts in mouse at 9.4 T as opposed to IntraGateFLASH even when accelerated
Acquisition details: TE: 0.4/1.5 ms (IgUTE/IgFLASH), TR: 9 ms, Resolution: (98 ×98) µm², slice thickness: 800 µm, cine frames: 14