TY - JOUR
T1 - Contrast optimization for the detection of focal hepatic lesions by MR imaging at 1.5 T
AU - Foley, W. D.
AU - Kneeland, J. B.
AU - Cates, J. D.
AU - Kellman, G. M.
AU - Lawson, T. L.
AU - Middleton, W. D.
AU - Hendrick, R. E.
PY - 1987
Y1 - 1987
N2 - The relative efficacies of different spin-echo pulse sequences at 1.5 T were evaluated in the detection of focal hepatic diseases. Pulse sequences compared were spin-echo with a repetition time (TR) of 200 msec and echo time (TE) of 20 msec, with six excitations; TR = 300 msec, TE = 20 msec, with 16 excitations (T1-weighted sequences); and a double spin-echo with TR = 2500 and TE = 25 and 70, with two excitations (proton-density-weighted and T2-weighted pulse sequences, respectively). Respiratory-motion compensation, which involved a reordering of the phase-encoding gradients (Exorcist), was used for the last two sequences. Spin-echo with TR = 2500 msec and TE = 70 msec was superior in lesion detection and contrast-to-noise ratio. The proton-density-weighted and T2-weighted sequences with respiratory compensation produced better artifact suppression than did the short TR, short TE T1-weighted sequence with temporal averaging. In a contradistinction to prior results at 0.6 T, T2-weighted pulse sequences appear superior to T1-weighted pulse sequences with multiple excitations for both lesion detection and artifact suppression at 1.5 T.
AB - The relative efficacies of different spin-echo pulse sequences at 1.5 T were evaluated in the detection of focal hepatic diseases. Pulse sequences compared were spin-echo with a repetition time (TR) of 200 msec and echo time (TE) of 20 msec, with six excitations; TR = 300 msec, TE = 20 msec, with 16 excitations (T1-weighted sequences); and a double spin-echo with TR = 2500 and TE = 25 and 70, with two excitations (proton-density-weighted and T2-weighted pulse sequences, respectively). Respiratory-motion compensation, which involved a reordering of the phase-encoding gradients (Exorcist), was used for the last two sequences. Spin-echo with TR = 2500 msec and TE = 70 msec was superior in lesion detection and contrast-to-noise ratio. The proton-density-weighted and T2-weighted sequences with respiratory compensation produced better artifact suppression than did the short TR, short TE T1-weighted sequence with temporal averaging. In a contradistinction to prior results at 0.6 T, T2-weighted pulse sequences appear superior to T1-weighted pulse sequences with multiple excitations for both lesion detection and artifact suppression at 1.5 T.
UR - http://www.scopus.com/inward/record.url?scp=0023503167&partnerID=8YFLogxK
U2 - 10.2214/ajr.149.6.1155
DO - 10.2214/ajr.149.6.1155
M3 - Article
C2 - 3500602
AN - SCOPUS:0023503167
SN - 0361-803X
VL - 149
SP - 1155
EP - 1160
JO - American Journal of Roentgenology
JF - American Journal of Roentgenology
IS - 6
ER -