TY - JOUR
T1 - Application of a BIlinear Rotation Decoupling (BIRD) filter in combination with J-difference editing for indirect 13 C measurements in the human liver
AU - Veeraiah, Pandichelvam
AU - Brouwers, Kim
AU - Wildberger, Joachim E
AU - Schrauwen-Hinderling, Vera B
AU - Lindeboom, Lucas
N1 - © 2020 The Authors. Magnetic Resonance in Medicine published by Wiley Periodicals LLC on behalf of International Society for Magnetic Resonance in Medicine.
PY - 2020/7/3
Y1 - 2020/7/3
N2 - PURPOSE: Recently, we introduced a quantum coherence based method (ge-HSQC) for indirect 13 C-MRS in the liver to track 13 C-labeled lipids into the hepatic lipid pool in vivo. This approach is more robust in case of respiratory motion, however, inherently leads to a signal loss of 50% when compared with a conventional J-difference editing technique (JDE). Here, we intend to improve the robustness of a regular JDE (STEAM-ACED) with the use of a BIlinear Rotation Decoupling (BIRD) filter to achieve 100% higher signal gain when compared with ge-HSQC.METHODS: To determine the efficiency of the BIRD filter 1 H-[13 C] lipid spectra were acquired on 3T from a peanut oil phantom, with three different MR sequences: ge-HSQC, STEAM-ACED, and the BIRD filter together with STEAM-ACED (BIRD-STEAM-ACED). Finally, our proposed method is tested in vivo in five healthy volunteers with varying liver fat content. In these subjects we quantified the 1 H-[13 C]-signal from the hepatic lipid pool and determined 13 C enrichment, which is expected to be 1.1% according to the natural abundance of 13 C.RESULTS: The application of the proposed BIRD filter reduces the subtraction artifact of 1 H-[12 C] lipid signal efficiently in JDE experiments, which leads to a signal gain of 100% of 1 H-[13 C]-lipid signals when compared with the ge-HSQC. Phase distortions in vivo were minimal with the use of BIRD compared with STEAM-ACED, which enabled us to robustly quantify the 13 C-enrichment in all five subjects.CONCLUSION: The BIRD-STEAM-ACED sequence is an efficient and promising tool for 13 C-tracking experiments in the human liver in vivo.
AB - PURPOSE: Recently, we introduced a quantum coherence based method (ge-HSQC) for indirect 13 C-MRS in the liver to track 13 C-labeled lipids into the hepatic lipid pool in vivo. This approach is more robust in case of respiratory motion, however, inherently leads to a signal loss of 50% when compared with a conventional J-difference editing technique (JDE). Here, we intend to improve the robustness of a regular JDE (STEAM-ACED) with the use of a BIlinear Rotation Decoupling (BIRD) filter to achieve 100% higher signal gain when compared with ge-HSQC.METHODS: To determine the efficiency of the BIRD filter 1 H-[13 C] lipid spectra were acquired on 3T from a peanut oil phantom, with three different MR sequences: ge-HSQC, STEAM-ACED, and the BIRD filter together with STEAM-ACED (BIRD-STEAM-ACED). Finally, our proposed method is tested in vivo in five healthy volunteers with varying liver fat content. In these subjects we quantified the 1 H-[13 C]-signal from the hepatic lipid pool and determined 13 C enrichment, which is expected to be 1.1% according to the natural abundance of 13 C.RESULTS: The application of the proposed BIRD filter reduces the subtraction artifact of 1 H-[12 C] lipid signal efficiently in JDE experiments, which leads to a signal gain of 100% of 1 H-[13 C]-lipid signals when compared with the ge-HSQC. Phase distortions in vivo were minimal with the use of BIRD compared with STEAM-ACED, which enabled us to robustly quantify the 13 C-enrichment in all five subjects.CONCLUSION: The BIRD-STEAM-ACED sequence is an efficient and promising tool for 13 C-tracking experiments in the human liver in vivo.
KW - healthy volunteers
KW - humans
KW - lipids
KW - liver/diagnostic imaging
KW - phantoms, imaging
KW - rotation
KW - gezonde vrijwilligers
KW - mensen
KW - lipiden
KW - lever/diagnostische beeldvorming
KW - fantomen, beeldvorming
KW - rotatie
U2 - 10.1002/mrm.28394
DO - 10.1002/mrm.28394
M3 - Article
C2 - 32618391
SN - 0740-3194
VL - 84
SP - 2911
EP - 2917
JO - Magnetic Resonance in Medicine
JF - Magnetic Resonance in Medicine
IS - 6
ER -