Improved three‐dimensional Look–Locker acquisition scheme and angle map filtering procedure for T1 estimation

The three‐dimensional (3D) Look–Locker (LL) acquisition is a widely used fast and efficient T1 mapping method. However, the multi‐shot approach of 3D LL acquisition can introduce reconstruction artifacts that result in intensity distortions. Traditional 3D LL acquisition generally utilizes a centric encoding scheme that is limited to a single phase‐encoding direction in k space. To optimize k‐space segmentation, an elliptical scheme with two phase‐encoding directions is implemented for the LL acquisition. This elliptical segmentation can reduce the intensity errors in the reconstructed images and improve the final T1 estimation. One of the major sources of error in LL‐based T1 estimation is a lack of accurate knowledge of the actual flip angle. A multi‐parameter curve‐fitting procedure can account for some of the variability in the flip angle. However, curve fitting can also introduce errors in the estimated flip angle that can result in incorrect T1 values. A filtering procedure based on goodness of fit (GOF) is proposed to reduce the effect of false flip angle estimates. Filtering based on GOF weighting can remove probable incorrect angles that result in bad curve fitting. Simulation, phantom and in vivo studies have demonstrated that these techniques can improve the accuracy of 3D LL T1 estimation. Copyright © 2013 John Wiley & Sons, Ltd.

[1]  Kay Nehrke,et al.  On the steady‐state properties of actual flip angle imaging (AFI) , 2009, Magnetic resonance in medicine.

[2]  R Deichmann,et al.  Quantification of T1 values by SNAPSHOT-FLASH NMR imaging , 1992 .

[3]  B. Rutt,et al.  Rapid combined T1 and T2 mapping using gradient recalled acquisition in the steady state , 2003, Magnetic resonance in medicine.

[4]  N. J. Shah,et al.  A New Method for Fast Multislice T 1 Mapping , 2001, NeuroImage.

[5]  Peter B Kingsley,et al.  Optimized precision of inversion‐recovery T1 measurements for constrained scan time , 2004, Magnetic resonance in medicine.

[6]  S J Riederer,et al.  Performance of an elliptical centric view order for signal enhancement and motion artifact suppression in breath‐hold three‐dimensional gradient echo imaging , 1997, Magnetic resonance in medicine.

[7]  P. Lundberg,et al.  Novel method for rapid, simultaneous T1, T*2, and proton density quantification , 2007, Magnetic resonance in medicine.

[8]  Ralf Deichmann,et al.  Fast high‐resolution T1 mapping of the human brain , 2005, Magnetic resonance in medicine.

[9]  E M Haacke,et al.  Accurate determination of spin‐density and T1 in the presence of RF‐field inhomogeneities and flip‐angle miscalibration , 1998, Magnetic resonance in medicine.

[10]  David M. Grant,et al.  Optimal determination of relaxation times of fourier transform nuclear magnetic resonance. Determination of spin-lattice relaxation times in chemically polarized species , 1974 .

[11]  R. Deichmann,et al.  Influence of RF spoiling on the stability and accuracy of T1 mapping based on spoiled FLASH with varying flip angles , 2009, Magnetic resonance in medicine.

[12]  Giles Santyr,et al.  An improved 3-D Look--Locker imaging method for T(1) parameter estimation. , 2005, Magnetic resonance imaging.

[13]  Eleni Kaldoudi,et al.  Relaxation time measurements in NMR imaging. Part I: Longitudinal relaxation time , 1993 .

[14]  G J Parker,et al.  Accurate multislice gradient echo T1 measurement in the presence of non‐ideal RF pulse shape and RF field nonuniformity , 2001, Magnetic resonance in medicine.

[15]  R. Deichmann,et al.  Fast T1 mapping on a whole‐body scanner , 1999, Magnetic resonance in medicine.

[16]  Craig B. Markwardt,et al.  Non-linear Least Squares Fitting in IDL with MPFIT , 2009, 0902.2850.

[17]  Peter Jezzard,et al.  Rapid T1 mapping using multislice echo planar imaging , 2001, Magnetic resonance in medicine.

[18]  W E Reddick,et al.  Correction of errors caused by imperfect inversion pulses in MR imaging measurement of T1 relaxation times. , 1998, Magnetic resonance imaging.

[19]  W. J. Lorenz,et al.  Spin‐lattice relaxation time measurement by means of a TurboFLASH technique , 1993, Magnetic resonance in medicine.

[20]  M. Zaitsev,et al.  Fast T1 mapping with volume coverage , 2001, Magnetic resonance in medicine.

[21]  D. Look,et al.  Time Saving in Measurement of NMR and EPR Relaxation Times , 1970 .

[22]  M. L. Wood,et al.  Spoiling of transverse magnetization in steady‐state sequences , 1991, Magnetic resonance in medicine.

[23]  G. Wright,et al.  Rapid high‐resolution T1 mapping by variable flip angles: Accurate and precise measurements in the presence of radiofrequency field inhomogeneity , 2006, Magnetic resonance in medicine.

[24]  John A Butman,et al.  Modulated repetition time look‐locker (MORTLL): A method for rapid high resolution three‐dimensional T1 mapping , 2009, Journal of magnetic resonance imaging : JMRI.

[25]  B K Rutt,et al.  A fast 3D look-locker method for volumetric T1 mapping. , 1999, Magnetic resonance imaging.