Magnetic resonance imaging findings in bilateral basal ganglia lesions (original) (raw)
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Bilateral lesions of the basal ganglia and thalami (central grey matter)—pictorial review
Neuroradiology
The basal ganglia and thalami are paired deep grey matter structures with extensive metabolic activity that renders them susceptible to injury by various diseases. Most pathological processes lead to bilateral lesions, which may be symmetric or asymmetric, frequently showing characteristic patterns on imaging studies. In this comprehensive pictorial review, the most common and/or typical genetic, acquired metabolic/toxic, infectious, inflammatory, vascular and neoplastic pathologies affecting the central grey matter are subdivided according to the preferential location of the lesions: in the basal ganglia, in the thalami or both. The characteristic imaging findings are described with emphasis on the differential diagnosis and clinical context.
Basal ganglia lesions in children and adults
European Journal of Radiology, 2013
The term "basal ganglia" refers to caudate and lentiform nuclei, the latter composed of putamen and globus pallidus, substantia nigra and subthalamic nuclei and these deep gray matter structures belong to the extrapyramidal system. Many diseases may present as basal ganglia abnormalities. Magnetic resonance imaging (MRI) and computed tomography (CT)-to a lesser degree-allow for detection of basal ganglia injury. In many cases, MRI alone does not usually allow to establish diagnosis but together with the knowledge of age and circumstances of onset and clinical course of the disease is a powerful tool of differential diagnosis. The lesions may be unilateral: in Rassmussen encephalitis, diabetes with hemichorea/hemiballism and infarction or-more frequently-bilateral in many pathologic conditions. Restricted diffusion is attributable to infarction, acute hypoxic-ischemic injury, hypoglycemia, Leigh disease, encephalitis and CJD. Contrast enhancement may be seen in cases of infarction and encephalitis. T1-hyperintensity of the lesions is uncommon and may be observed unilaterally in case of hemichorea/hemiballism and bilaterally in acute asphyxia in term newborns, in hypoglycemia, NF1, Fahr disease and manganese intoxication. Decreased signal intensity on GRE/T2*-weighted images and/or SWI indicating iron, calcium or hemosiderin depositions is observed in panthotenate kinase-associated neurodegeneration, Parkinson variant of multiple system atrophy, Fahr disease (and other calcifications) as well as with the advancing age. There are a few papers in the literature reviewing basal ganglia lesions. The authors present a more detailed review with rich iconography from the own archive.
Basal ganglia hyperintensity on T1-weighted MRI in Rendu-Osler-Weber disease
Journal of magnetic resonance imaging : JMRI, 2012
The purpose of this study was to evaluate possible central nervous system (CNS) involvement in Rendu-Osler-Weber (ROW) disease in magnetic resonance imaging (MRI). Three patients with symptomatic ROW disease underwent brain MRI. Brain MRI depicted in all three of them increased signal intensity on T1-weighted images involving the globus pallidus and cerebral crura bilaterally. Laboratory studies of the two men showed iron deficiency anemia, while all three of them had normal liver function tests and increased manganese blood concentration. Gastroscopy and colonoscopy revealed a gastric and a cecal arteriovenous malformation (AVM) in the first one, while pulmonary and hepatic computed tomography (CT) angiography did not detect any intrahepatic shunts. Liver ultrasound in the second one revealed dilatation of intrahepatic artery branches consistent with intrahepatic shunts, while it was normal in the third patient. Chest radiographs were normal in all three patients. Pallidal T1 hyper...
Polish journal of radiology / Polish Medical Society of Radiology, 2014
With several functions and a fundamental influence over cognition and motor functions, the basal ganglia are the cohesive centre of the brain. There are several conditions which affect the basal ganglia and these have various clinical and radiological manifestations. Nevertheless, on magnetic resonance imaging there is a limited differential diagnosis for those conditions presenting with T1 weighted spin echo hyperintensity within the central nervous system in general and the basal ganglia in particular. The aim of our review is to explore some of these basal ganglia pathologies and provide image illustrations.
Bilateral lesions of thalamus and basal ganglia: origin and outcome
Developmental Medicine & Child Neurology, 2002
Twenty-seven MRI examinations from 17 children (7 females, 10 males) with bilateral lesions of the basal ganglia and thalamus, presenting over a period of 8 years, were reevaluated, and correlated with the type of cerebral palsy (CP) as well as motor and cognitive impairment. Children were between 1 year 6 months and 17 years old at last examination (mean 5 years 9 months). Brain damage had occurred as a consequence of birth asphyxia in nine patients and of neonatal shock in four patients. No adverse event could be identified in four children. In these, late prenatal compromise is assumed, as extensive screening (including MR spectroscopy in two patients) did not yield an underlying metabolic disorder. Three different degrees of MRI lesion patterns could be defined: a mild pattern (involvement of nucleus lentiformis and ventro-lateral thalamus only; n=7), an intermediate pattern (involvement of nucleus lentiformis, ventro-lateral thalamus, and pericentral region; n=3), and a severe pattern (involvement of nucleus lentiformis, entire thalamus, pericentral region, and hippocampus; n=7). This grading of MRI findings correlated significantly with the severity of both cognitive and motor impairment and type of CP. Normal cognitive development and mild motor delay was only seen with the mild pattern. All children developed CP: purely dyskinetic CP was only seen with the mild pattern, whereas the dyskinetic-spastic or spastic CP types could be seen in all three lesion patterns, with dyskinetic-spastic CP more related to the moderate, and purely spastic CP more related to the severe pattern.
Hyperintense basal ganglia on T1-weighted MR imaging
American Journal of Roentgenology, 1999
L esions with high signal intensity on spin-echo Tl-weighted MR images are unusual and are associated with relatively few entities, including lipids, calcification, high protein count, laminar necrosis in cerebral infarction, neoplasms, and paramagnetic substances such as methemoglobin,
Human basal ganglia volume asymmetries on magnetic resonance images
Magnetic Resonance Imaging, 1993
The brains of 19 healthy adults, ages 18-49, were imaged on a GE Signa 1.5 T MR scanner. Basal ganglia were circumscribed on sequential axial proton density-weighted images (TR 1700, TE 20) and submitted for 3-dimensional reconstruction and volumetric analysis at a computer graphics workstation. The 15 right-handed patients (12 men, 3 women) had significantly larger left total basal ganglia volumes, which included larger globus pallidus and lentitular nuclei on the left, but larger caudate nuclei on the right. In contrast, basal ganglia asymmetries were not seen in four left-handers. No sex differences were detected. The basal ganglia appear to belong to an increasing number of CNS structures that display anatomical hemispheric lateralization.
European Journal of Nuclear Medicine and Molecular Imaging, 2016
Objectives: We report the case of a 16-year-old patient with progressive generalized choreo-dystonia that appeared two months after a suicide attempt by hanging associated with a cardiorespiratory arrest. An initial magnetic resonance imaging (MRI) brain scan was judged normal by radiologists. Discordance between clinical presentation and morphological imaging led to the hypothesis of a psychogenic dystonia but striatal lesions were suspected by neurologists. Methods: A second MRI high field was performed and the patient also underwent 123 I-fluopane single photon emission computed tomography (SPECT). MRI and SPECT fusion images were analysed. Results: The second MRI failed to reveal any lesions involving the basal ganglia. 123 I-fluopane-SPECT, however, highlighted bilateral posterior putaminal presynaptic dopaminergic denervation. Post hoc analysis of MRI and SPECT fusion images confirmed bilateral posterior putamen lesions, with low signal intensity on DWI, confirming the diagnosis of postanoxic generalized dystonia. Conclusions: We report this case to highlight the utility of multimodal imaging in diagnosis of bilateral lesions in difficult neurologic disorders where there is discordance between the clinical presentation and morphological brain imaging.
Magnetic resonance imaging pattern recognition in childhood bilateral basal ganglia disorders
Brain Communications
Bilateral basal ganglia abnormalities on MRI are observed in a wide variety of childhood disorders. MRI pattern recognition can enable rationalization of investigations and also complement clinical and molecular findings, particularly confirming genomic findings and also enabling new gene discovery. A pattern recognition approach in children with bilateral basal ganglia abnormalities on brain MRI was undertaken in this international multicentre cohort study. Three hundred and five MRI scans belonging to 201 children with 34 different disorders were rated using a standard radiological scoring proforma. In addition, literature review on MRI patterns was undertaken in these 34 disorders and 59 additional disorders reported with bilateral basal ganglia MRI abnormalities. Cluster analysis on first MRI findings from the study cohort grouped them into four clusters: Cluster 1—T2-weighted hyperintensities in the putamen; Cluster 2—T2-weighted hyperintensities or increased MRI susceptibility...