TY - JOUR
T1 - Comparison of functional MR and H215O positron emission tomography in stimulation of the primary visual cortex
AU - Kraut, M. A.
AU - Marenco, S.
AU - Soher, B. J.
AU - Wong, D. F.
AU - Bryan, R. N.
PY - 1995
Y1 - 1995
N2 - PURPOSE: To locate spoiled gradient-echo functional MR signal changes in relation to brain parenchyma. METHODS: The region of the primary visual cortex was evaluated using functional MR and H215O positron emission tomography in each of six male subjects who were being visually stimulated by means of red light-emitting diode flash goggles. RESULTS: The positron emission tomography technique demonstrated substantially greater relative signal change with visual stimulation than did the functional MR technique. Furthermore, the functional MR signal changes were concentrated in loci around the periphery of brain parenchyma exhibiting increased radiotracer activity, as opposed to being collocated. CONCLUSIONS: Signal changes found using functional MR based on gradient-echo techniques reflect primarily phenomena occurring within small veins and underrepresent activity intrinsic to brain parenchyma, thus introducing potential inaccuracies in locating regions of activated brain tissue. Positron emission tomography, however, directly measures changes in metabolically related activity within the parenchyma.
AB - PURPOSE: To locate spoiled gradient-echo functional MR signal changes in relation to brain parenchyma. METHODS: The region of the primary visual cortex was evaluated using functional MR and H215O positron emission tomography in each of six male subjects who were being visually stimulated by means of red light-emitting diode flash goggles. RESULTS: The positron emission tomography technique demonstrated substantially greater relative signal change with visual stimulation than did the functional MR technique. Furthermore, the functional MR signal changes were concentrated in loci around the periphery of brain parenchyma exhibiting increased radiotracer activity, as opposed to being collocated. CONCLUSIONS: Signal changes found using functional MR based on gradient-echo techniques reflect primarily phenomena occurring within small veins and underrepresent activity intrinsic to brain parenchyma, thus introducing potential inaccuracies in locating regions of activated brain tissue. Positron emission tomography, however, directly measures changes in metabolically related activity within the parenchyma.
KW - Magnetic resonance, functional
KW - Positron emission tomography
UR - http://www.scopus.com/inward/record.url?scp=0028860792&partnerID=8YFLogxK
M3 - Article
C2 - 8585501
AN - SCOPUS:0028860792
SN - 0195-6108
VL - 16
SP - 2101
EP - 2107
JO - American Journal of Neuroradiology
JF - American Journal of Neuroradiology
IS - 10
ER -