Keywords
Susceptibility Magnetic
Breast
3T
Specific Absorption Rate (SAR)
Spectroscopy
SNR
BOLD
How to Cite
Abstract
In recent decades the Magnetic Resonance Imaging (MRI) world, for diagnostic uses, offered a very rapid and extremely dynamic and necessary technological evolution. Recently approved in Italy also for clinical use, in addition to
the scientific one, the introduction of very high-field MRI, or 3 Tesla, provided considerable benefits. Therefore, the
high magnetic field (3T) allows an increase in the signal-to-noise ratio (SNR) and in spatial and temporal resolution,
and other several advantages. Certainly, there are some disadvantages, which can be found in the field of protectionism and safety, due to the increase in intensity of the static magnetic field and, specifically, to the increase in Specific
Absorption Rate (SAR). Many applications of MRI improved significantly, among these, the brest MRI study, where
the 3T magnetic field allows an increase of diagnostic accuracy in terms of specificity, providing a better visualization
and characterization of breast lesions presenting post-contrastographic enhancement, so breast cancer and other
lesions, showing a progressive better application field. Magnetic resonance is an emerging application with great
potential, and the spread of very high-field scanners will allow 3 Tesla to become the excellence for many studies,
especially in breast imaging.
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