Spectroscopic imaging with improved gradient modulated constant adiabaticity pulses on high-field clinical scanners.

The purpose of this work was to design and implement constant adiabaticity gradient modulated pulses that have improved slice profiles and reduced artifacts for spectroscopic imaging on 3T clinical scanners equipped with standard hardware. The newly proposed pulses were designed using the gradient offset independent adiabaticity (GOIA, Tannus and Garwood[13]) method using WURST modulation for RF and gradient waveforms. The GOIA-WURST pulses were compared with GOIA-HSn (GOIA based on nth-order hyperbolic secant) and FOCI (frequency offset corrected inversion) pulses of the same bandwidth and duration. Numerical simulations and experimental measurements in phantoms and healthy volunteers are presented. GOIA-WURST pulses provide improved slice profile that have less slice smearing for off-resonance frequencies compared to GOIA-HSn pulses. The peak RF amplitude of GOIA-WURST is much lower (40% less) than FOCI but slightly higher (14.9% more) to GOIA-HSn. The quality of spectra as shown by the analysis of lineshapes, eddy currents artifacts, subcutaneous lipid contamination and SNR is improved for GOIA-WURST. GOIA-WURST pulse tested in this work shows that reliable spectroscopic imaging could be obtained in routine clinical setup and might facilitate the use of clinical spectroscopy.

[1]  P. Bottomley Spatial Localization in NMR Spectroscopy in Vivo , 1987, Annals of the New York Academy of Sciences.

[2]  A Macovski,et al.  A reduced power selective adiabatic spin‐echo pulse sequence , 1991, Magnetic resonance in medicine.

[3]  Roger J Ordidge,et al.  Spin-echo MRS in humans at high field: LASER localisation using FOCI pulses. , 2005, Journal of magnetic resonance.

[4]  K. Uğurbil,et al.  NMR chemical shift imaging in three dimensions. , 1982, Proceedings of the National Academy of Sciences of the United States of America.

[5]  Kawin Setsompop,et al.  Slice‐selective RF pulses for in vivo B  1+ inhomogeneity mitigation at 7 tesla using parallel RF excitation with a 16‐element coil , 2008, Magnetic resonance in medicine.

[6]  Tracy T Batchelor,et al.  AZD2171, a pan-VEGF receptor tyrosine kinase inhibitor, normalizes tumor vasculature and alleviates edema in glioblastoma patients. , 2007, Cancer cell.

[7]  Hoult,et al.  Selective spin inversion in nuclear magnetic resonance and coherent optics through an exact solution of the Bloch-Riccati equation. , 1985, Physical review. A, General physics.

[8]  J Kurhanewicz,et al.  Three-dimensional magnetic resonance spectroscopic imaging of brain and prostate cancer. , 2000, Neoplasia.

[9]  D. Graveron-Demilly,et al.  Java-based graphical user interface for the MRUI quantitation package , 2001, Magnetic Resonance Materials in Physics, Biology and Medicine.

[10]  Localized in vivo human 1H MRS at very short echo times , 2004, Magnetic resonance in medicine.

[11]  O. Lutz,et al.  Quantitative evaluation of the lactate signal loss and its spatial dependence in press localized (1)H NMR spectroscopy. , 2001, Journal of magnetic resonance.

[12]  André J. W. van der Kouwe,et al.  Brain morphometry with multiecho MPRAGE , 2008, NeuroImage.

[13]  Pines,et al.  Broadband and adiabatic inversion of a two-level system by phase-modulated pulses. , 1985, Physical review. A, General physics.

[14]  Rolf Gruetter,et al.  MR spectroscopy of the human brain with enhanced signal intensity at ultrashort echo times on a clinical platform at 3T and 7T , 2009, Magnetic resonance in medicine.

[15]  J. Stanley,et al.  In vivo Magnetic Resonance Spectroscopy and its Application to Neuropsychiatric Disorders , 2002, Canadian journal of psychiatry. Revue canadienne de psychiatrie.

[16]  W. Perman,et al.  Spatially resolved high resolution spectroscopy by “four-dimensional” NMR , 1983 .

[17]  Thomas H. Mareci,et al.  Experimental study of optimal selective 180° radiofrequency pulses , 1988 .

[18]  R. B. Kingsley,et al.  WET, a T1- and B1-insensitive water-suppression method for in vivo localized 1H NMR spectroscopy. , 1994, Journal of magnetic resonance. Series B.

[19]  G. Bodenhausen,et al.  Principles of nuclear magnetic resonance in one and two dimensions , 1987 .

[20]  Alberto Bizzi,et al.  Proton spectroscopic imaging of human brain , 1992 .

[21]  Kawin Setsompop,et al.  Parallel RF transmission with eight channels at 3 Tesla , 2006, Magnetic resonance in medicine.

[22]  V. Govindaraju,et al.  Proton NMR chemical shifts and coupling constants for brain metabolites , 2000, NMR in biomedicine.

[23]  R. Ordidge,et al.  Frequency offset corrected inversion (FOCI) pulses for use in localized spectroscopy , 1996, Magnetic resonance in medicine.

[24]  Thomas H. Mareci,et al.  Selective inversion radiofrequency pulses by optimal control , 1986 .

[25]  Michael Garwood,et al.  Improved Performance of Frequency-Swept Pulses Using Offset-Independent Adiabaticity , 1996 .

[26]  L DelaBarre,et al.  The return of the frequency sweep: designing adiabatic pulses for contemporary NMR. , 2001, Journal of magnetic resonance.

[27]  Dennis W J Klomp,et al.  Short echo time 1H‐MRSI of the human brain at 3T with minimal chemical shift displacement errors using adiabatic refocusing pulses , 2008, Magnetic resonance in medicine.

[28]  A. Macovski,et al.  Variable-rate selective excitation , 1988 .

[29]  T. Ernst,et al.  Elimination of artifacts in short echo time 1H MR spectroscopy of the frontal lobe , 1996, Magnetic resonance in medicine.

[30]  R. Bartha,et al.  High‐field MRSI of the prostate using a transmit/receive endorectal coil and gradient modulated adiabatic localization , 2009, Journal of magnetic resonance imaging : JMRI.

[31]  B. Meier,et al.  Computer Simulations in Magnetic Resonance. An Object-Oriented Programming Approach , 1994 .

[32]  B J Soher,et al.  Acute stroke: evaluation with serial proton MR spectroscopic imaging. , 1994, Radiology.

[33]  Laura I Sacolick,et al.  Adiabatic refocusing pulses for volume selection in magnetic resonance spectroscopic imaging , 2007, Magnetic resonance in medicine.

[34]  Albert Macovski,et al.  A selective adiabatic spin-echo pulse , 1989 .