MR Fingerprinting1A giant leap for precision medicine
Magnetic Resonance imaging has traditionally been a mixture of weighted tissue properties, provided by sequential,
repetitive data-acquisition with fixed parameters. Diagnostic evaluation was purely qualitative, and highly dependent
on system parameters. Now, Magnetic Resonance Fingerprinting1 (MRF) makes it possible to glean quantitative
information from scans that can enable decisions based on digital tissue data, and the target anatomy can be
described objectively. Our developments in MRF are pushing the frontier farther, helping to improve diagnostic
accuracy, and leading to more personalized treatment.
Magnetic Resonance Fingerprinting (MRF)1 uses absolute quantifiable data to generate a more precise understanding
of a patient’s condition. Quantitative MRF offers enormous potential to enable less invasive diagnostics by identifying
morphological changes that can contribute to therapy decisions and treatment evaluation. Unique signal patterns are
recorded as fingerprints of tissues. These recorded fingerprints are matched against a dictionary with pre-calculated theoretical
fingerprints. The best match reveals the underlying bio-parameter values used to calculate this theoretical fingerprint. The MRF
Development Kit is a new tool that allows users to set their own parameters ranges for their specific research needs.
The MR Robust Quantitative Tool (MR RoQT) enables simultaneous visualization of data from a variety of parameter
maps.
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The product is not for sale in the U.S. Its future availability cannot be guaranteed.