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Cesium-137 versus X-ray irradiation preconditioning in immunodeficient NOG mice
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Radio-active sources have been used routinely for the preconditioning in humanized mouse models, but safety issues have...
EV imaging series: Using ONI super-resolution to characterize single-EVs
Dec 23, 2020
To date, researchers commonly use flow-based characterization methods, fluorescence imaging techniques and electron...
Don’t Let Waste Anesthetic Gases Harm You!
Dec 21, 2020
Many projects have been devoted to the study of the correlation between anesthetics and Alzheimer’s disease....
Advances in Leukemia research using shear flow and Bioflux system
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Leukemia is a rare cancer with many subtypes. The production of abnormal leukocytes create disruptions in the immune...
Do you have our CellRad benchtop irradiator? It’s the only one on the market!
Dec 8, 2020
The CellRad is a smaller, simpler, safer, and more cost effective alternative to radioisotope or high-powered X-ray...
Dosimetric characterization of an X-ray irradiator for use with cells
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Modeling multiple myeloma-Bone Marrow interactions using Synthecon rotating-wall vessels
Dec 2, 2020
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Bruker webinar: Ear evolution in fossil mammals
Nov 27, 2020
Hearing is just one of the functions aside of providing balance. Even juveniles obtain a fully developed ear region...
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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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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