PURPOSE: To demonstrate the feasibility of performing 39-potassium MR imaging of a human brain. METHODS: 39-Potassium magnetic resonance imaging of a human brain was performed at 9.4 T using a flexible twisted projection imaging acquisition with a nominal isotropic spatial resolution of 10 mm in 40 min using a single-tuned birdcage radiofrequency coil. Co-registered sodium imaging with a nominal isotropic spatial resolution of 3.5 mm was performed on the same subject in 10 min. RESULTS: The 39-potassium flexible twisted projection imaging imaging had a signal-to-noise ratio of 5.2 in brain paranchyma. This qualitative imaging showed the expected features when compared to co-registered high- and low-resolution sodium imaging of the same subject. CONCLUSION: Potassium MR images may offer complementary information to that of sodium MR images by sampling the intracellular rather that interstitial environment. Quantification will require additional improvement in signal-to-noise ratio to produce clinically useful bioscales as are developing for sodium MR imaging.
PURPOSE: To demonstrate the feasibility of performing 39-potassium MR imaging of a human brain. METHODS: 39-Potassium magnetic resonance imaging of a human brain was performed at 9.4 T using a flexible twisted projection imaging acquisition with a nominal isotropic spatial resolution of 10 mm in 40 min using a single-tuned birdcage radiofrequency coil. Co-registered sodium imaging with a nominal isotropic spatial resolution of 3.5 mm was performed on the same subject in 10 min. RESULTS: The 39-potassium flexible twisted projection imaging imaging had a signal-to-noise ratio of 5.2 in brain paranchyma. This qualitative imaging showed the expected features when compared to co-registered high- and low-resolution sodium imaging of the same subject. CONCLUSION: Potassium MR images may offer complementary information to that of sodium MR images by sampling the intracellular rather that interstitial environment. Quantification will require additional improvement in signal-to-noise ratio to produce clinically useful bioscales as are developing for sodium MR imaging.
Authors: Sebastian C Niesporek; Reiner Umathum; Thomas M Fiedler; Peter Bachert; Mark E Ladd; Armin M Nagel Journal: MAGMA Date: 2017-05-26 Impact factor: 2.310
Authors: Thomas F Budinger; Mark D Bird; Lucio Frydman; Joanna R Long; Thomas H Mareci; William D Rooney; Bruce Rosen; John F Schenck; Victor D Schepkin; A Dean Sherry; Daniel K Sodickson; Charles S Springer; Keith R Thulborn; Kamil Uğurbil; Lawrence L Wald Journal: MAGMA Date: 2016-05-18 Impact factor: 2.310