Music-based magnetic resonance fingerprinting to improve patient comfort during MRI examinations
https://www.ncbi.nlm.nih.gov/pubmed/26178439
Abstract
PURPOSE:
Unpleasant acoustic noise is a drawback of almost every MRI scan. Instead of reducing acoustic noise to improve patient comfort, we propose a technique for mitigating the noise problem by producing musical sounds directly from the switching magnetic fields while simultaneously quantifying multiple important tissue properties.THEORY AND METHODS:
MP3 music files were converted to arbitrary encoding gradients, which were then used with varying flip angles and repetition times in a two- and three-dimensional magnetic resonance fingerprinting (MRF) examination. This new acquisition method, named MRF-Music, was used to quantify T1 , T2 , and proton density maps simultaneously while providing pleasing sounds to the patients.
RESULTS:
MRF-Music scans improved patient comfort significantly during MRI examinations. The T1 and T2 values measured from phantom are in good agreement with those from the standard spin echo measurements. T1 and T2 values from the brain scan are also close to previously reported values.
CONCLUSIONS:
MRF-Music
sequence provides significant improvement in patient comfort compared
with the MRF scan and other fast imaging techniques such as echo planar
imaging and turbo spin echo scans. It is also a fast and accurate
quantitative method that quantifies multiple relaxation parameters
simultaneously.