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Bilateral Thalami (bilateral + thalamus)
Selected AbstractsBrain Blood-flow Alterations Induced by Therapeutic Vagus Nerve Stimulation in Partial Epilepsy: II.EPILEPSIA, Issue 9 2004Low Levels of Stimulation, Prolonged Effects at High Summary:,Purpose: To measure vagus nerve stimulation (VNS)-induced cerebral blood flow (CBF) effects after prolonged VNS and to compare these effects with immediate VNS effects on CBF. Methods: Ten consenting partial epilepsy patients had positron emission tomography (PET) with intravenous [15O]H2O. Each had three control scans without VNS and three scans during 30 s of VNS, within 20 h after VNS began (immediate-effect study), and repeated after 3 months of VNS (prolonged study). After intrasubject subtraction of control from stimulation scans, images were anatomically transformed for intersubject averaging and superimposed on magnetic resonance imaging (MRI) for anatomic localization. Changes on t-statistical maps were considered significant at p < 0.05 (corrected for multiple comparisons). Results: During prolonged studies, CBF changes were not observed in any regions that did not have CBF changes during immediate-effect studies. During both types of studies, VNS-induced CBF increases were similarly located in the bilateral thalami, hypothalami, inferior cerebellar hemispheres, and right postcentral gyrus. During immediate-effect studies, VNS decreased bilateral hippocampal, amygdalar, and cingulate CBF and increased bilateral insular CBF; no significant CBF changes were observed in these regions during prolonged studies. Mean seizure frequency decreased by 25% over a 3-month period between immediate and prolonged PET studies, compared with 3 months before VNS began. Conclusions: Seizure control improved during a period over which some immediate VNS-induced CBF changes declined (mainly over cortical regions), whereas other VNS-induced CBF changes persisted (mainly over subcortical regions). Altered synaptic activities at sites of persisting VNS-induced CBF changes may reflect antiseizure actions. [source] Primary CNS angiitis presenting as short-term memory loss: a case report and literature reviewINTERNATIONAL JOURNAL OF RHEUMATIC DISEASES, Issue 3 2008Bradley DUHON Abstract Primary angiitis of the central nervous system (PACNS) is an idiopathic vasculitis of the small to medium vessels that often eludes diagnosis because of its variable signs and symptoms. A 36-year-old woman presented with a 4-week history of progressive memory loss. Neurological examination revealed only severe cognitive deficits including anterograde amnesia. Magnetic resonance imaging demonstrated multiple ring-enhancing lesions involving the left frontal lobe and uncus and bilateral thalami. Stereotactic biopsy showed findings consistent with CNS angiitis. Further workup revealed no evidence of systemic disease. We report the first case of biopsy-proven PACNS presenting as profound isolated anterograde amnesia. [source] Correlation of neurological manifestations and MR images in a patient with Wilson's disease after liver transplantationACTA NEUROLOGICA SCANDINAVICA, Issue 2 2000J-C. Wu Orthotopic liver transplantation (OLT) has been applied to patients with Wilson's disease (WD) for correction of irreversible liver cirrhosis. However, the neurological outcome and the correlation between clinical manifestations and neuroimage findings after OLT remain uncertain. We present a WD patient who showed an improvement in both liver functions and neurological manifestations after OLT. Serum levels of ceruloplasmin and copper returned to normal rapidly after the operation. His ataxic gait was improved 5 months later and dysmetria and tremor disappeared 11 months later. The high signal intensities on T2-weighted brain magnetic resonance images regressed at bilateral thalami 5 months later and disappeared in bilateral thalami and red nuclei 16 months after OLT. We conclude that the neurological improvement could be expected in WD patients after OLT. The improvement was correlated with the MRI changes in red nuclei and bilateral thalami. [source] Voxel-based morphometry of sporadic epileptic patients with mesiotemporal sclerosisEPILEPSIA, Issue 4 2010Angelo Labate Summary Purpose:, In refractory temporal lobe epilepsy (rTLE), gray matter (GM) abnormalities are not confined to the hippocampus but also are found in extrahippocampal structures. Very recently we observed in mild TLE (mTLE) with or without mesiotemporal sclerosis (MTS), GM reductions in regions outside the presumed epileptogenic focus. To date, there are no studies that directly investigate whether whole-brain GM volume differs between rTLE and mTLE. Herein, we used optimized voxel-based morphometry (VBM) to identify GM abnormalities beyond the hippocampus in both rTLE and mTLE with evidence of MTS. Methods:, Brain magnetic resonance imaging (MRI) and optimized VBM were performed in 19 unrelated patients with mTLE, 19 patients with rTLE, and 37 healthy controls. MRI diagnosis of MTS was based on the atrophy of the hippocampal formation and/or mesiotemporal hyperintensity on fluid-attenuated inversion recovery (FLAIR) or T2 images, or both. Results:, No patients (rTLE and mTLE) had generalized tonic,clonic or complex partial seizures for at least 3 weeks before scanning. Both mTLE and rTLE patients showed GM volume reduction of the bilateral thalamus, left hippocampus, and sensorimotor cortex compared with controls. No significant GM difference was found between rTLE and mTLE groups. Discussion:, In both rTLE and mTLE, VBM shows GM reductions not confined to the hippocampus involving mainly the thalamus bilaterally. This finding together with the lack of significant GM differences between the two TLE groups supports the hypothesis that mTLE and rTLE might lie along a biologic continuum, suggesting a pathophysiologic role of the thalamus in partial epilepsy. [source] Functional neuroanatomy of the human near/far response to blur cues: eye-lens accommodation/vergence to point targets varying in depthEUROPEAN JOURNAL OF NEUROSCIENCE, Issue 10 2004Hans O. Richter Abstract The purpose of this study was to identify the networks involved in the regulation of visual accommodation/vergence by contrasting the cortical functions subservient to eye-lens accommodation with those evoked by foveal fixation. Neural activity was assessed in normal volunteers by changes in rCBF measured with PET. Thirteen right-handed subjects participated in three monocular tasks: (i) resting with eyes closed; (ii) sustained foveal fixation upon a LED at 1.2 m (0.83 D); and (iii) accommodating alternately on a near (24 cm, 4.16 D) vs. a far (3.0 m, 0.33 D) LED alternately illuminated in sequential 2 s epochs. The contrast between the conditions of near/far accommodation and of constant foveal fixation revealed activation in cerebellar hemispheres and vermis; middle and inferior temporal cortex (BA 20, 21, 37); striate cortex and associative visual areas (BA 17/18). Comparison of the condition of constant fixation with the condition of resting with closed eyes indicated activation of cerebellar hemispheres and vermis; visual cortices (BA 17/18); a right hemisphere dominant network encompassing prefrontal (BA 6, 9, 47), superior parietal (BA 7), and superior temporal (BA 40) cortices; and bilateral thalamus. The contrast between the conditions of near/far accommodation with closed-eye rest reflected an incremental summation of the activations found in the previous comparisons (i.e. activations associated with constant fixation). Neural circuits activated selectively during the near/far response to blur cues over those during constant visual fixation, occupy posterior structures that include occipital visual regions, cerebellar hemispheres and vermis, and temporal cortex. [source] Step-by-step: The effects of physical practice on the neural correlates of locomotion imagery revealed by fMRIHUMAN BRAIN MAPPING, Issue 5 2010Silvio Ionta Abstract Previous studies have shown that mental imagery is a suitable tool to study the progression of the effect of practice on brain activation. Nevertheless, there is still poor knowledge of changes in brain activation patterns during the very early stages of physical practice. In this study, early and late practice stages of different kinds of locomotion (i.e., balanced and unbalanced) have been investigated using functional magnetic resonance imaging during mental imagery of locomotion and stance. During the task, cardiac activity was also recorded. The cerebral network comprising supplementary motor area, basal ganglia, bilateral thalamus, and right cerebellum showed a stronger activation during the imagery of locomotion with respect to imagery of stance. The heart beat showed a significant increase in frequency during the imagery of locomotion with respect to the imagery of stance. Moreover, early stages of practice determined an increased activation in basal ganglia and thalamus with respect to late stages. In this way, it is proposed the modulation of the brain network involved in the imagery of locomotion as a function of physical practice time. Hum Brain Mapp, 2010. © 2009 Wiley-Liss, Inc. [source] | |||||||||||||