AI Article Synopsis
- The study received ethics approval and informed consent from participants to evaluate breath-hold multiecho magnetic resonance imaging for lipid quantification and T2* measurement.
- Ten subjects, including healthy volunteers and obese individuals, were imaged using a specific MR sequence at 3.0 T, with findings compared to liver proton MR spectroscopy.
- Results showed a strong correlation between the imaging method and spectroscopy for measuring hepatic lipids, suggesting that multiecho imaging is a promising technique for assessing fat and T2* simultaneously.
Article Abstract
Research ethics committee approval was obtained for this study, and written informed consent was obtained from all participants. The purpose was to prospectively evaluate the feasibility of breath-hold multiecho in- and out-of-phase magnetic resonance (MR) imaging for simultaneous lipid quantification and T2* measurement. A spoiled gradient-echo sequence with seven echo times alternately in phase and out of phase was used at 3.0 T. Imaging was performed in a lipid phantom, in five healthy volunteers (all men; mean age, 37 years), and in five obese individuals with hyperlipidemia or diabetes (four men, one woman; mean age, 53 years). A biexponential curve-fitting model was used to derive the relative signal contributions from fat and water, and these results were compared with results of liver proton MR spectroscopy, the reference standard. There was a significant correlation between multiecho and spectroscopic measurements of hepatic lipid concentration (r(2) = 0.99, P < .001). In vivo, the T2* of water was consistently longer than that of fat and reliably enabled the signal components to be correctly assigned. In the lipid phantom, the multiecho method could be used to determine the fat-to-water ratio and the T2* values of fat and water throughout the entire range of fat concentrations. Multiecho imaging shows promise as a method of simultaneous fat and T2* quantification.
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| http://dx.doi.org/10.1148/radiol.2472070880 | DOI Listing |
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