PURPOSE: To implement and evaluate a novel single-volume two-dimensional localized constant-time-based correlated spectroscopy (2D LCT-COSY) sequence on a clinical 3T MR scanner. This sequence exhibits homonuclear decoupling along the F1 dimension, leading to improved spectral resolution compared to that of non-constant-time localized correlated spectroscopy (L-COSY). MATERIALS AND METHODS: A GE 3T MR scanner equipped with a quadrature transmit and receive extremity coil was used in this study. The 2D LCT-COSY sequence was programmed using General Electric's EPIC compiler. Simulations for a two-spin 1/2 system were performed using GAMMA libraries to evaluate the theoretical performance of the sequences, and were also compared with corresponding phantom experiments using trans-cinnamic acid. Finally, spectra were acquired from the soleus muscle of healthy volunteers in order to evaluate performance in vivo. RESULTS: Simulations and experimental results confirmed the improved spectral resolution of LCT-COSY over L-COSY, as well as its homonuclear decoupling performance. The behavior of resonance amplitudes as a function of evolution time in the experiment also was appropriately reflected by the simulation. Corresponding results were obtained for the in vivo muscle spectra, in which separation of overlapping olefinic and allylic methylene protons from the intra- and extramyocellular lipids (IMCL and EMCL, respectively) was achieved. CONCLUSION: Simulations and experimental results in vitro and in vivo demonstrate the strengths of LCT-COSY. This technique can be implemented on systems of any field strength, and has the potential to separate overlapping metabolites in tissue when employed on high-field clinical MRI scanners equipped for proton spectroscopy. (c) 2007 Wiley-Liss, Inc.
PURPOSE: To implement and evaluate a novel single-volume two-dimensional localized constant-time-based correlated spectroscopy (2D LCT-COSY) sequence on a clinical 3T MR scanner. This sequence exhibits homonuclear decoupling along the F1 dimension, leading to improved spectral resolution compared to that of non-constant-time localized correlated spectroscopy (L-COSY). MATERIALS AND METHODS: A GE 3T MR scanner equipped with a quadrature transmit and receive extremity coil was used in this study. The 2D LCT-COSY sequence was programmed using General Electric's EPIC compiler. Simulations for a two-spin 1/2 system were performed using GAMMA libraries to evaluate the theoretical performance of the sequences, and were also compared with corresponding phantom experiments using trans-cinnamic acid. Finally, spectra were acquired from the soleus muscle of healthy volunteers in order to evaluate performance in vivo. RESULTS: Simulations and experimental results confirmed the improved spectral resolution of LCT-COSY over L-COSY, as well as its homonuclear decoupling performance. The behavior of resonance amplitudes as a function of evolution time in the experiment also was appropriately reflected by the simulation. Corresponding results were obtained for the in vivo muscle spectra, in which separation of overlapping olefinic and allylic methylene protons from the intra- and extramyocellular lipids (IMCL and EMCL, respectively) was achieved. CONCLUSION: Simulations and experimental results in vitro and in vivo demonstrate the strengths of LCT-COSY. This technique can be implemented on systems of any field strength, and has the potential to separate overlapping metabolites in tissue when employed on high-field clinical MRI scanners equipped for proton spectroscopy. (c) 2007 Wiley-Liss, Inc.
Authors: M Albert Thomas; Thomas Lange; S Sendhil Velan; Rajakumar Nagarajan; Steve Raman; Ana Gomez; Daniel Margolis; Stephany Swart; Raymond R Raylman; Rolf F Schulte; Peter Boesiger Journal: MAGMA Date: 2008-07-17 Impact factor: 2.310
Authors: Małgorzata Marjańska; Lynn E Eberly; Gregor Adriany; Sarah N Verdoliva; Michael Garwood; Lisa Chow Journal: Magn Reson Med Date: 2012-02-01 Impact factor: 4.668
Authors: S Sendhil Velan; Nicholas Said; Kartik Narasimhan; Cyrus Papan; Ali Bahu; John Austin Vargo; Raymond R Raylman; M Albert Thomas; Vazhaikkurichi M Rajendran; Richard G Spencer; Stephen E Alway Journal: Magn Reson Insights Date: 2008-09-03
Authors: S Sendhil Velan; Nicholas Said; Christopher Durst; Stephanie Frisbee; Jefferson Frisbee; Raymond R Raylman; M Albert Thomas; Vazhaikkurichi M Rajendran; Richard G Spencer; Stephen E Alway Journal: Am J Physiol Regul Integr Comp Physiol Date: 2008-07-30 Impact factor: 3.619