Calibration of the 1H decoupling field strength and experimental evaluation of the specific RF absorption rate in 1H-decoupled human 13C-MRS

Calibration of the 1H decoupling field strength and experimental evaluation of the specific RF absorption rate in 1H-decoupled human 13C-MRS

For patient safety in human 1H decoupled 13C‐MRS, it is absolutely necessary to evaluate the specific RF absorption rate (SAR) of the tissue exposed to 1H frequency irradiation. With the use of surface coils, the local SAR at the body surface is of most concern due to the inherent RF field inhomogen...

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Veröffentlicht in:Magnetic resonance in medicine 1998-04, Vol.39 (4), p.642-646
Hauptverfasser: van den Bergh, Adrianus J., van den Boogert, Hendrikusy J., Heerschap, Arend
Format: Artikel
Sprache:eng
Schlagworte:
Absorption
Biological and medical sciences
Carbon Isotopes
Feasibility Studies
Head - anatomy & histology
Humans
Image Processing, Computer-Assisted
Investigative techniques, diagnostic techniques (general aspects)
Liver - anatomy & histology
Magnetic Resonance Spectroscopy - methods
Magnetics
Medical sciences
Miscellaneous. Technology
Muscle, Skeletal - anatomy & histology
Radiodiagnosis. Nmr imagery. Nmr spectrometry
Safety
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Zusammenfassung:For patient safety in human 1H decoupled 13C‐MRS, it is absolutely necessary to evaluate the specific RF absorption rate (SAR) of the tissue exposed to 1H frequency irradiation. With the use of surface coils, the local SAR at the body surface is of most concern due to the inherent RF field inhomogeneity. An empirical procedure to spatially calibrate the decoupler power level and to evaluate the local SAR at the body surface is described. For head, liver, muscle gastrocnemius, and muscle vastus lateralis, the SAR at the body surface was estimated for an 1HJ13C double surface coil setup. Optimized duty cycle values obtained with this procedure show that broadband 1H‐decoupled 13C‐MR spectroscopy is clinically feasible at 1.5 T for such a coil configuration within safety guidelines. Key words: SAR; decoupling; 13C‐MRS; 1.5 T.
ISSN:0740-3194
1522-2594
DOI:10.1002/mrm.1910390418