TY - JOUR
T1 - Glucose hypometabolism and neuropathological correlates in brains of dementia with Lewy bodies
AU - Higuchi, Makoto
AU - Tashiro, Manabu
AU - Arai, Hiroyuki
AU - Okamura, Nobuyuki
AU - Hara, Sachiko
AU - Higuchi, Susumu
AU - Itoh, Masatoshi
AU - Shin, Ryong Woon
AU - Trojanowski, John Q.
AU - Sasaki, Hidetada
PY - 2000/4
Y1 - 2000/4
N2 - Cerebral glucose metabolism using positron emission tomography (PET) with 18F-fluorodeoxyglucose was examined in 11 patients with probable Alzheimer's disease (AD), 6 patients with probable, and 1 patient with autopsy-confirmed dementia with Lewy bodies (DLB) as well as in 10 age- matched normal control subjects. Among widespread cortical regions showing glucose hypometabolism in the DLB group, the metabolic reduction was most pronounced in the visual association cortex compared to that in the AD group. Using a metabolic ratio of 0.92 in the visual association cortex as a cutoff (mean-2 SD of normal control subjects), DLB could be distinguished from AD with a sensitivity of 86% and a specificity of 91%. In contrast, apolipoprotein E4 allele frequency and cerebrospinal fluid tau levels did not differ significantly between the two groups. In order to further dissect out neuropathological correlates of the dysfunctional occipital lobe, postmortem brains from 19 patients with AD and 17 with DLB as well as 11 brains from normal controls were examined. A distinct and extensive spongiform change with coexisting gliosis was variably noted throughout cerebral white matter with relative sparing of gray matter in DLB. Notably, the white matter spongiform change and gliosis was most prominently and consistently found in the occipital region of DLB, and the severity of the spongiform change in each brain region generally paralleled to the regional difference in reduced glucose metabolism between the living AD and DLB patients. These findings suggest that (1) among several potential antemortem biomarkers in the diagnosis of DLB, measures of the glucose metabolism in the occipital cortex may be an informative diagnostic aid to distinguish DLB from AD; and (2) a pathological process that generates wide-spread spongiform change and gliosis in long projection fibers may contribute, at least in part, to the characteristic imaging features of DLB. (C) 2000 Academic Press.
AB - Cerebral glucose metabolism using positron emission tomography (PET) with 18F-fluorodeoxyglucose was examined in 11 patients with probable Alzheimer's disease (AD), 6 patients with probable, and 1 patient with autopsy-confirmed dementia with Lewy bodies (DLB) as well as in 10 age- matched normal control subjects. Among widespread cortical regions showing glucose hypometabolism in the DLB group, the metabolic reduction was most pronounced in the visual association cortex compared to that in the AD group. Using a metabolic ratio of 0.92 in the visual association cortex as a cutoff (mean-2 SD of normal control subjects), DLB could be distinguished from AD with a sensitivity of 86% and a specificity of 91%. In contrast, apolipoprotein E4 allele frequency and cerebrospinal fluid tau levels did not differ significantly between the two groups. In order to further dissect out neuropathological correlates of the dysfunctional occipital lobe, postmortem brains from 19 patients with AD and 17 with DLB as well as 11 brains from normal controls were examined. A distinct and extensive spongiform change with coexisting gliosis was variably noted throughout cerebral white matter with relative sparing of gray matter in DLB. Notably, the white matter spongiform change and gliosis was most prominently and consistently found in the occipital region of DLB, and the severity of the spongiform change in each brain region generally paralleled to the regional difference in reduced glucose metabolism between the living AD and DLB patients. These findings suggest that (1) among several potential antemortem biomarkers in the diagnosis of DLB, measures of the glucose metabolism in the occipital cortex may be an informative diagnostic aid to distinguish DLB from AD; and (2) a pathological process that generates wide-spread spongiform change and gliosis in long projection fibers may contribute, at least in part, to the characteristic imaging features of DLB. (C) 2000 Academic Press.
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U2 - 10.1006/exnr.2000.7342
DO - 10.1006/exnr.2000.7342
M3 - Article
C2 - 10739631
AN - SCOPUS:0034090258
SN - 0014-4886
VL - 162
SP - 247
EP - 256
JO - Experimental Neurology
JF - Experimental Neurology
IS - 2
ER -