Bruker is a performace leader in preclinical imaging instrumentation. Bruker offers nine imaging modalities: PET, SPECT, CT, MRI, MPI, fluorescence, luminiscence, radioisotipic imaging and X-ray.
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Aug 17, 2023
Register for an engaging webinar led by Naz Chaudary, Ph.D., and Research Technician, Alex Wang from the...
Optimizing Gene Expression with Bioluminescence & the piggyBac System
Aug 15, 2023
Discover how bioluminescence imaging & the piggyBac gene editing system optimize & track gene expression in mouse...
High-plex immunofluorescence imaging and traditional histology of the same tissue section
Aug 7, 2023
RareCyte Orion’ platform has been used for collecting H&E and high-plex immunofluorescence images from the same cells...
Drive key insights and discoveries with NEW Live Cell Analysis applications for eSight system
Aug 2, 2023
eSight is now powerful like never before. Learn more about new dedicated application modules for live-cell analysis: 3D...
Single cell-resolution in situ sequencing elucidates spatial dynamics of multiple sclerosis
Jul 14, 2023
MERFISH integrates spatial transcriptomics technology with high resolution spatial imaging, fluidics, image processing,...
MARS - High Efficiency Separation of CD34+ HSC from Mobilized Blood
Jul 12, 2023
MARS platform provides an easy and cost-effective protocol for CD34+ cell isolation. Single pass CD34+ HSC enrichment...
43 markers, ONE tube : Impress yourself with Cytek Aurora Spectral Cytometer
Jul 11, 2023
Using Cytek full spectrum flow cytometry, scientists at Hamad Medical Corporation, developed a 43 color panel to...
InAlyzer - The technology chosen by NASA
Jul 10, 2023
MEDIKORS's InAlyzer was finally selected as the equipment to be used for NASA's space environment biological research
Fat-water separation Imaging in Preclinical MRI
Mar 1, 2019
Non-invasive in vivo phenotyping of adipose tissue deposits in small animal models is of great importance in preclinical metabolic research. Additionally, in Magnetic Resonance Imaging (MRI), fat suppression is often performed with Radio-Frequency (RF) pulse-based fat saturation techniques to avoid artifacts arising from fat. However, RF-based fat suppression can be non-optimal especially at low magnetic fields with low chemical shifts between fat and water as well as at high fields which often have challenging shim conditions. To overcome these limitations an easy to use method to discriminate fat and water in preclinical MRI research is presented. The fully integrated method is introduced with the
new ParaVision version: ParaVision 360
Related technologies: Magnetic resonance imaging
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