OBJECTIVES: Obsessive-compulsive(OC) symptoms have yet to be directly studied in neurodegenerative conditions involving behavioral changes. To examine regional abnormalities in the brains of dementia patients with OC symptoms, we assessed the gray matter density using voxel-based morphometry(VBM). METHODS: We performed brain magnetic resonance imaging(MRI) with VBM analysis in 106 dementia patients with OC behaviors. In this study, OC behaviors were investigated in patients with neurodegenerative disease using the modified Manchester Behavior Questionnaire. RESULTS: The OC behavior scores were correlated with structural brain volume using VBM. The total OC symptom score correlated negatively with the volume of both putamens, the right middle orbitofrontal gyrus, both anterior cingulate cortices, and the left insula(p<0.001, uncorrected). No gray matter reductions were associated specifically with the OC symptom sub-categories. CONCLUSIONS: Our results suggest that abnormalities in these brain regions may play an important role in the pathophysiology of OCD in neurodegenerative disease. This is the first lesion study to investigate the neural basis of OCD behaviors in neurodegenerative disease.
Brain ; Dementia ; Humans ; Neurodegenerative Diseases* ; Putamen ; Questionnaires

Transient memory impairment can be occurred by many causes. One of them is acute focal brain lesion in strategic site. Caudate nucleus and medial basal ganglia (globus pallidus) are lesion of strategic site. They play its role in cognitive processing. But lateral basal ganglia (putamen) is known as a structure involving movement, not cognitive function. We report a interesting case of transient memory dysfunction with acute focal putamen ICH with old caudate nucleus infarction.
Basal Ganglia ; Brain ; Caudate Nucleus ; Infarction ; Intracranial Hemorrhages ; Memory ; Putamen

Hemichorea have been reported in patients with nonketotic hyperglycemia. Usually, hemichorea and hyperglycemia are concomitant. A 73-year-old woman was admitted for investigation of an acute hemichorea. T1-weighted brain magnetic resonance imaging showed hyperintensity in the right putamen. Although she was a diabetic patient, she had no hyperglycemia. Interestingly, 4 weeks earlier, the patient was admitted due to nonketotic hyperglycemia. However, there were no hemichorea at that time. Although pathophysiologically controversial, a delayed hemichorea without nonketotic hyperglycemia should be considered as one of many different causes when evaluating acute hemichorea in diabetic patients.
Aged ; Brain ; Chorea ; Female ; Humans ; Hyperglycemia* ; Magnetic Resonance Imaging ; Putamen

OBJECTIVE: Auditory hallucinations (AHs) are a core symptom of schizophrenia. We investigated the neural signature of AHs by comparing hallucinating patients with schizophrenia with non-hallucinating patients with schizophrenia. METHODS: We recruited hallucinating patients with schizophrenia meeting the criteria for persistent, prominent, and predominant AHs (n=10) and non-hallucinating patients with schizophrenia (n=12). Various clinical assessments were performed incluing Psychotic Symptom Rating Scale for Auditory Hallucinations. Using fludeoxyglucose (¹⁸F) positron emission tomography, regional differences in neural activity between the groups were analyzed. RESULTS: The regions of interest analysis showed significantly lower standardized uptake value ratio (SUVR) in the superior, middle, and inferior frontal gyri, and higher SUVR in the putamen in patients with AHs versus patients without AHs. These findings were confirmed in the voxel-wise analysis. CONCLUSION: Our findings indicate that hypoactivity in the frontal and cingulate gyri, coupled with hyperactivity in the temporal gyrus and putamen, may contribute to the pathophysiology of AHs.
Electrons* ; Hallucinations* ; Humans ; Positron-Emission Tomography* ; Putamen ; Schizophrenia* ; Temporal Lobe

Paralimbic association area in the temporal pole is situated between sensory association areas and the limbic regions and has direct connections with these areas and the ventral striatum. Corticostriatal connections of paralimbic association area in the temporal pole were studied with particular emphasis on specific projections of the ventral striatum to identify different contributions to the functional outcome of the ventral striatum. Retrograde tracers were injected into the five different regions of the ventral striatum such as the ventromedial caudate nucleus, ventral shell, central shell, dorsal core of the nucleus accumbens (NA), and ventrolateral putamen to identify the labeled cells of origin. Present results indicate that the temporal pole has specifically dense projections to the ventral shell of NA. This differential pattern of corticostriatal connectivity suggests that ventral shell region of ventral striatum is preferentially involved in the convergence of sensory and limbic stimulus to motivational and emotional states.
Basal Ganglia ; Caudate Nucleus ; Nucleus Accumbens ; Primates* ; Putamen

The simultaneous occurrence of intracerebral hemorrhages in different arterial territories is an uncommon clinical event. The authers report a case of simultaneous bilateral intracerebral hemorrhages treated with stereotactic aspiration. A 64-year-old male presented with simultaneous bilateral intracerebral hemorrhages in the both putamens. The hematomas were demonstrated by computed tomography performed after a few hours of onset. The patient underwent computed tomography-guided stereotactic aspiration but he finally became vegetative state. Most of patients reported previously usually have unfavorable functional outcome and high mortality because of the severe neurological deficits. Therefore, the role of the surgical treatment in case of bilateral intracerebral hemorrhages should be surveyed closely in according to clinical state. The authors describe a case of simultaneous bilateral intracerebral hemorrhages and with discussion focused in the predisposing factors, pathogenesis and therapeutic approach.
Causality ; Cerebral Hemorrhage* ; Hematoma ; Humans ; Male ; Middle Aged ; Mortality ; Persistent Vegetative State ; Putamen

PURPOSE: To determine whether 1H magnetic resonance spectroscopy (MRS) is useful in differentiating idiopathic Parkinson's disease (IPD) from progressive supranuclear palsy (PSP), based on metabolite ratios. MATERIALS AND METHODS: Using a 1.5 T MR Unit, single voxel 1H MRS using STEAM with a TR of 2000ms and a TE of 135ms was performed in seven PD and eight PSP patients. Five age-matched volunteers(mean age, 63 years) andanother five younger healthy volunteers(mean age, 30 years) were studied as normal controls. The regions of interest were the putamen and pallidum, with a size of 2 X 2 X 2cm. After measuring the spectral intensities ofeach metabolite (N-acetylaspartate=NAA, choline=Cho, creatine=Cr and lactate), relative peak height ratios ofNAA/Cr, Cho/Cr and Naa/Cho, and lactate levels among four groups were compared. ESULTS: NAA/Cho and NAA/Crratios were statistically lower in the PSP group than the IPD group (1.21 +/-0.26 versus 1.45 +/-0.20, and 1.26 +/-.23 versus 1.38 +/-0.19, respectively : p<0.05). NAA/Cho and NAA/Cr ratios were significantly lower inage-matched controls than in younger normal controls (1.39 +/-0.21 versus 1.76 +/-0.15, and 1.36 +/-0.13 versus1.79 +/-0.17, respectively : p<0.05). However, NAA/Cho and NAA/Cr ratios between age-matched controls and IPD werenot significantly different (p>0.05). Cho/Cr ratios were not different among four groups. Lactate was not detectedin any patients. CONCLUSION: NAA/Cho and NAA/Cr ratios in the corpus striatum were significantly lower in the PSP group than in the age-matched control and IPD groups. These results suggest that loss of neuron cells in thecorpus striatum is more prominent in PSP than in IPD, and that NAA/Cho and NAA/Cr ratios may help in differential diagnosis of IPD and PSP.
Corpus Striatum ; Humans ; Lactic Acid ; Magnetic Resonance Spectroscopy* ; Neurons ; Parkinson Disease* ; Putamen ; Steam ; Supranuclear Palsy, Progressive*

OBJECTIVE: To analyze the relationship between brain lesion location and type of chronic dysphagia in patients with supratentorial stroke. METHODS: Data from 82 chronic stroke patients who underwent videofluoroscopic swallowing studies at >6 months after an initial stroke event were retrospectively analyzed. Delayed oral transit time, delayed pharyngeal transit time, and the presence of aspiration were extracted. A voxel-based lesion symptom mapping (VLSM) analysis was used to correlate types of dysphagia with specific brain lesions. RESULTS: VLSM identified several clusters of voxels that significantly correlated with type of dysphagia. Delayed oral transit time mainly correlated with lesions in the left inferior frontal lobe and precentral gyrus; delayed pharyngeal time mainly correlated with lesions in the right basal ganglia and corona radiate; and aspiration was mainly correlated with lesions in the putamen. CONCLUSION: Understanding the association between lesion location and dysphagia in chronic stroke patients is an important first step towards predicting permanent dysphagia after stroke. Improved understanding of the neural correlates of dysphagia will inform the utility of interventions for its treatment and prevention after stroke.
Basal Ganglia ; Brain ; Deglutition ; Deglutition Disorders* ; Frontal Lobe ; Humans ; Neuroimaging ; Putamen ; Retrospective Studies ; Stroke*

OBJECTIVES: The purpose of this study was to investigate the regional differences of the basal ganglia volume between the boy subjects who have Tourette's disorder and the control group who don't have this disorder by using Brain MRI. METHODS: Sixteen subjects who were diagnosed as Tourette's disorder using DSM-IV criteria, and sixteen healthy subjects were selected. For analysis the coronal slice images of the basal ganglia were collected and collected MR images were analyzed with NIH Image (version 6.1 ppc). RESULTS: The total brain volume in the subjects with Tourette's disorder were smaller than control group by 6.2% (F=6.2, d.f.=1, p=0.019). The right putamen volume in boys with Tourette's disorder were significant smaller than control group statistically (F=3.2, d.f.=3, p=0.040). The asymmetry (left>right) in the globus pallidus decreased significantly in the boys with Tourette's disorder (p=0.06) were found from this experiment. CONCLUSION: These findings suggest that boys with Tourette's disorder may have neuropathological abnormalities in the basal ganglia. Moreover, the present findings point out the important role of basal ganglia, especially putamen, in pathophysiology of Tourette's disorder. More studies about the structural and functional analysis of the basal ganglia in Tourette's disorder are highly required.
Basal Ganglia ; Brain ; Diagnostic and Statistical Manual of Mental Disorders ; Globus Pallidus ; Putamen ; Tourette Syndrome

ABSTRACT OBJECTIVES: We report event-related functional magnetic resonance imaging(fMRI) methodology to investigate human brain activity during motor imagery. METHODS: A 1.5 Tesla clinical MR scanner was used in the acquisition of a series of T2* weighted MR images covering the whole brain. Blood oxygenation level-dependent(BOLD) signal changes associated with the imagery event were subsequently detected while healthy right-handed subjects imagined clenching of a right hand cued by auditory stimulus. RESULTS: Group analysis across nine right-handed subjects revealed activations in the medial and superior frontal gyri, cuneus, insula, middle/superior temporal gyri, and anterior cingulate gyri. Bilateral primary motor, premotor and supplementary motor areas exhibited event-related MR signal changes. Although unilateral hand clenching was imagined, bilateral activation of eloquent motor areas was observed. The proposed method also allowed for the visualization of subcortical areas, such as putamen, globus pallidus and thalamus, responsive to the event of motor imagery. CONCLUSION: The major cortical and subcortical areas in the motor pathways were identified and visualized during motor imagery event. Our results suggest that motor imagery and actual movement share common neural substrates.
Brain ; Brain Mapping ; Efferent Pathways ; Globus Pallidus ; Hand ; Humans ; Magnetic Resonance Imaging* ; Oxygen ; Putamen ; Thalamus