James R. Moeller scite author profile

Summary: We used [ lB F]fluorodeoxyglucose/positron emission tomography e B F-FDG/PET) and a statistical model of regional covariation to study brain topographic organization in parkinsonism. We studied 22 patients with Parkinson's disease (PD), 20 age-matched normal volun teers, and 10 age-and severity-matched patients with pre sumed striatonigral degeneration (SND). We used FDGI PET to calculate global, regional, and normalized meta bolic rates for glucose (GMR, rCMR g lc, rCMR g lc/GMR). Metabolic parameters in the three groups were compared using an analysis of variance, with a correction for mul tiple comparisons, and discriminant analysis. The scaled sub profile model (SSM) was applied to the combined rCMR g lc dataset to identify topographic covariance pro files that distinguish PD patients from SND patients and normals. GMR, rCMR g lc, and rCMR g lc/GMR were nor mal in PD; caudate and lentiform rCMR g lc/GMR was re duced in the SND group (p < 0.01). SSM analysis of the combined group of patients and normals revealed a sig nificant topographic profile characterized by increased

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Patterns of regional brain activation associated with different forms of motor learning

Ghilardi¹,

Ghez²,

Dhawan³

et al. 2000

Brain Research

309

285

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Brain Networks Associated with Cognitive Reserve in Healthy Young and Old Adults

Stern

Habeck²,

Moeller³

et al. 2005

Cerebral Cortex

354

259

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In order to understand the brain networks that mediate cognitive reserve, we explored the relationship between subjects' network expression during the performance of a memory test and an index of cognitive reserve. Using H2(15)O positron emission tomography, we imaged 17 healthy older subjects and 20 young adults while they performed a serial recognition memory task for nonsense shapes under two conditions: low demand, with a unique shape presented in each study trial; and titrated demand, with a study list size adjusted so that each subject recognized shapes at 75% accuracy. A factor score that summarized years of education, and scores on the NART and the WAIS-R Vocabulary subtest was used as an index of cognitive reserve. The scaled subprofile model was used to identify a set of functionally connected regions (or topography) that changed in expression across the two task conditions and was differentially expressed by the young and elderly subjects. The regions most active in this topography consisted of right hippocampus, posterior insula, thalamus, and right and left operculum; we found concomitant deactivation in right lingual gyrus, inferior parietal lobe and association cortex, left posterior cingulate, and right and left calcarine cortex. Young subjects with higher cognitive reserve showed increased expression of the topography across the two task conditions. Because this topography, which is responsive to increased task demands, was differentially expressed as a function of reserve level, it may represent a neural manifestation of innate or acquired reserve. In contrast, older subjects with higher cognitive reserve showed decreased expression of the topography across tasks. This suggests some functional reorganization of the network used by the young subjects. Thus, for the old subjects this topography may represent an altered, compensatory network that is used to maintain function in the face of age-related physiological changes.

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Functional brain networks in DYT1 dystonia

Eidelberg

Moeller

Antonini

et al. 1998

Annals of Neurology

308

268

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Early-onset idiopathic torsion dystonia (ITD) is an autosomal dominant hyperkinetic movement disorder with incomplete penetrance, associated with a 3 base-pair deletion in the DYT1 gene on chromosome 9q34. To determine the metabolic substrates of brain dysfunction in DYT1 dystonia, we scanned 7 nonmanifesting and 10 affected DYT1 carriers and 14 normal volunteers with [18F]fluorodeoxyglucose and positron emission tomography. We found that DYT1 dystonia is mediated by the expression of two independent regional metabolic covariance patterns. The first pattern, identified in an analysis of nonmanifesting gene carriers was designated movement free (MF). This abnormal pattern was characterized by increased metabolic activity in the lentiform nuclei, cerebellum, and supplementary motor areas. The MF pattern was present in DYT1 carriers with and without clinical manifestations and persisted in DYT1 dystonia patients in whom involuntary movements were suppressed by sleep. The second pattern, identified in an analysis of affected gene carriers with sustained contractions at rest, was designated movement related (MR). This pattern was characterized by increased metabolic activity in the midbrain, cerebellum, and thalamus. The expression of the MR pattern was increased in waking DYT1 patients with sustained dystonia, compared with DYT1 carriers who were unaffected or who had dystonia only on action, as well as normal controls. MR subject scores declined significantly with sleep in affected DYT1 patients but not in normal controls. These findings indicate the penetrance of the DYT1 gene is considerably greater than previously assumed. ITD is mediated through the interaction of functional brain networks relating separately to gene status and to abnormal movement.

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The combined effects of physical, sexual, and emotional abuse during childhood: Long-term health consequences for women

Moeller¹,

Bachmann²,

Moeller³

1993

Child Abuse & Neglect

378

177

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James R. Moeller

The Metabolic Topography of Parkinsonism

Patterns of regional brain activation associated with different forms of motor learning

Brain Networks Associated with Cognitive Reserve in Healthy Young and Old Adults

Functional brain networks in DYT1 dystonia

The combined effects of physical, sexual, and emotional abuse during childhood: Long-term health consequences for women

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