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Query: UMLS:C0013421 (dystonia)
 8,418 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Careful clinical delineation and advances in analytical methods have opened new possibilities for the detection of inherited neurometabolic disorders, some of which require specific CSF analyses for diagnosis. Although patients suffering from these disorders have recognizable phenotypes, there are strong indications that remain many undiagnosed, leading to a continuation of futile diagnostic searches and, for most disorders, withholding of available rational therapy. As there is still widespread uncertainty about when to perform specialist CSF investigations, it is the aim of this paper to define the place for CSF investigations in the diagnostic work-up of a child with an encephalopathy of unknown origin. Most neurometabolic disorders can be identified through serum, plasma and urine analyses in conjunction with neuroradiological investigations. Whenever CSF investigations are performed, the analysis should include quantitative determination of lactate, pyruvate and amino acids, the latter by methods especially suited for CSF, in addition to cells, glucose, protein, immunoglobulin classes, specific immunoglobulins, and an evaluation of the blood-brain barrier. If the disease course is non-progressive or if extracerebral symptoms are present in addition to an encephalopathy, e.g. endocrinological, hepatic, muscular or renal symptoms, investigations of metabolites in CSF over and above lactate, pyruvate and amino acids are generally noncontributary. Specific CSF investigations, which are discussed in detail, test metabolic pathways of brain metabolism, especially of neurotransmission. For a successful diagnosis of these defects, analyses must be planned individually, before CSF samples are taken, based on family history, clinical findings and disease course. Different determinations require different logistics from taking of the sample to shipment. One indication for specialized CSF analyses including biogenic monoamines and GABA is severe neonatal/infantile epileptic encephalopathy. In addition to a therapeutic trial of B6, folinic acid should be tried empirically for two to three days as the emerging syndrome of folinic acid responsive seizures appears to be the underlying cause in a sizable proportion of patients. In later infancy and childhood, defects in the metabolism of the biogenic monoamines may be suspected in patients with (fluctuating) extrapyramidal disorders, in particular Parkinsonism dystonia or more general "athetoid cerebral palsy", and vegetative disturbances. A severe epileptic encephalopathy and progressive mental retardation may be present. Neuroimaging findings do not show specific lesions. Determinations of folates and organic acids in CSF appear at present only warrantable individually in special constellations, e.g. classical clinical findings and disease course suggestive of glutaryl-CoA dehydrogenase deficiency with repeated negative quantitative analyses of organic acids in urine. The diagnosis of disorders, which require specific analyses of CSF, can only be achieved by conscious diagnostic decisions based on a concept of the respective disease and repeated scrupolous expert clinical evaluation aided by an array of investigations in blood and urine as well as neuroimaging findings. No single one investigation in CSF can serve as a "selective screening" test. A growing awareness of these disorders is needed and should lead to increased and earlier diagnosis of patients through fewer rather than more lumbar punctures.
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PMID:Cerebrospinal fluid investigations for neurometabolic disorders. 963 60

The clinically described 'persistent vegetative state' (PVS), consists of wakefulness unaccompanied by any evidence of the subject's awareness of self or environment. Past studies from our own and other laboratories have used positron emission tomography (PET) to study brain metabolism in approximately 20 such patients during wakeful periods. All those efforts identified global cerebral glucose metabolism at or below levels encountered during deep barbiturate anaesthesia. Nevertheless, the clinical literature includes rare reports of relatively isolated cognitive functions expressed by PVS patients late in their course. The observation raises the question of whether such activity reflects awareness or unconscious automatic behaviour. We employed magnetometry (MEG), PET scanning, MR imaging and 24-hour EEG recordings to evaluate three patients clinically vegetative between six months and 20 years after onset. Neither meticulous clinical examinations nor 24-hour EEG and video monitoring provided any hint of cognitive interaction in any subject. Nevertheless, patient 1 uttered single words once every 48 hours or more; patient 2 frequently expressed coordinated, non-purposeful, non-dystonic movements in arms and/or legs; and, patient 3 expressed strong emotional negativity without motor responses to noxious stimuli with occasional quieting in response to prosodic stimuli. All patients had whole-brain averaged global metabolism levels below 50% of normal. Patient 1, however, demonstrated preserved islands of increased metabolism in the posterior frontal and posterior temporal lobes, as well as MEG activations of Heschl's gyrus all located in the left hemisphere. In patient 2, selected increased metabolism was confined to the frontal poles and related subcortical structures. MRI in patient 3 demonstrated severe, bilateral post-traumatic cerebral atrophy. PET metabolism was diffusely reduced to 40% of normal but MEG evoked potentials indicated early and late sensory processing with abnormal later evoked components. The correlation of fragmentary behaviour with preserved metabolic and physiologic activity in cortical and subcortical regions known to support specific modular functions is novel. The finding demonstrates the capacity of severely damaged brains to partially express surviving modular functions without evidence of integrative processes that would be necessary to produce consciousness. We conclude that the mere expression of isolated neuropsychologic activity by isolated modules is insufficient to generate consciousness in overwhelmingly damaged brains.
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PMID:Coordinated expression in chronically unconscious persons. 985 65

We studied pre-synaptic and post-synaptic function in the striatum of a patient with juvenile parkinsonism (JP) using positron emission tomography (PET). [18F]6-fluorodopa (18FDOPA), 11C-YM-09151-2 and [18F]fluoro-2-deoxy-d-glucose (18FDG) were used to measure fluorodopa uptake, dopamine D2 receptor binding and glucose metabolism, respectively. In this patient, 18FDOPA accumulation was decreased markedly in the caudate nucleus and the putamen bilaterally. In the images of 11C-YM-09151-2 and 18FDG, in contrast, no conspicuous changes were observed in the striatum. Thus our PET studies using 18FDOPA, 11C-YM-09151-2 and 18FDG provide a useful approach for assisting the diagnosis of JP, because the present findings are different from the results in patients with dopa-responsive dystonia and hereditary progressive dystonia with marked diurnal fluctuation. Furthermore, our findings are of particular interest in relation to the pathogenesis of JP.Copyright Lippincott-Raven Publishers
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PMID:PET study of striatal fluorodopa uptake and dopamine D2 receptor binding in a patient with juvenile parkinsonism. 1021 Aug 38

The nigrostriatal dopaminergic function and regional glucose metabolism were evaluated in patients suffering from various disorders of basal ganglia by using positron emission tomography with 18F-dopa and 18F-FDG, respectively. The 18F-dopa uptake in the striatum (the caudate head and the putamen) decreased in patients with Parkinson's disease but was relatively unaffected in the caudate. The cerebral glucose metabolism was normal in patients with Parkinson's disease. The 18F-dopa uptake in the striatum also decreased in cases of multiple system atrophy and progressive supranuclear palsy, but there was no difference in the uptake between the caudate and the putamen. The glucose metabolism decreased in the cerebral cortices and the striatum: this finding was also different from those of Parkinson's disease. A normal 18F-dopa uptake with a markedly decreased striatal glucose metabolism was observed in cases of Huntington's disease. The 18F-dopa uptake increased and the glucose metabolism was normal in cases of idiopathic dystonia. Various patterns of 18F-dopa uptake and glucose metabolism were thus observed in the various disorders of basal ganglia. These results suggest that the measurements of the 18F-dopa uptake and glucose metabolism would be useful for evaluating the function of the basal ganglia in various disorders of basal ganglia.
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PMID:[Functional imaging for disorders of basal ganglia]. 1037 93

Idiopathic dystonia with onset in the first year of life has been described as a transient movement disorder, in contrast to other forms of idiopathic dystonia We report on a girl who showed, from her 5th month, episodes of dystonic postures of her neck and arm, which lasted for seconds and occurred several times a day. Neurologic findings and the psychomotor development were and remained normal. Neurometabolic screening tests and cerebral magnetic resonance imaging showed normal results. Functional cerebral imaging showed decreased perfusion of the basal ganglia and the left temperomesial cortex using single photon emission computed tomography (SPECT with technetium 99m hexamethylpropyleneamine oxime [99mTc-HMPAO]) and decreased glucose metabolism in the basal ganglia and the cerebellum using positron emission tomography (PET with [18F]fluorodeoxyglucose [18FDG]). Follow-up revealed that the episodes disappeared at the age of 16 months. The findings of PET and SPECT give evidence of an alteration in basal ganglia function but also in functions of other central nervous system regions, which may, however, be temporary.
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PMID:Evidence for altered basal ganglia and cortical functions in transient idiopathic dystonia. 1119

A 43-year-old man was admitted to our hospital due to unstable walking, head tilting to the left and difficulty in extending his arm. He was quite healthy until the age of 20 years, when these symptoms appeared and progressed slowly afterward. Due to his unstable walking, he started to use a wheelchair when he was 39 years old. He had no family history of similar disease. On admission, neurological examination revealed spasmodic torticollis, ataxic speech and marked limb and truncal ataxia. Myoclonic jerky flexion of the forearm was induced when he raised and extended his forearm. He also showed mild hyperreflexia in the lower limbs without pathological reflexes. He had weakness and atrophy of the left supraspinatus, infraspinatus, deltoid and biceps brachii muscles and mild superficial sensory impairment in the left axillary nerve territory due to cervical spondylotic radiculopathy of the left C5 root. MRI of the brain demonstrated severe bilateral atrophy of the cerebellar hemispheres and vermis but minimal atrophy of the cerebrum and brainstem. Because surface electromyography revealed continuous discharge with phasic components in the biceps and wrist flexor muscles on extending the upper limbs, the jerky flexion movement of the forearm was considered to be primarily dystonia. Although no giant SEP was observed, a C-response was detected in the long-loop reflex in response to right median nerve stimulation. Nuclear examinations showed diffuse hypoperfusion and decreased glucose metabolism in the cerebellum. Based on these findings, we hypothesized that cerebellar dysfunction may have induced severe dystonic movement resembling myoclonus. We would like to name this complicated involuntary movement an "arm thrust". This is the first case to be reported of sporadic, chronic, progressive cerebellar ataxia accompanied by severe dystonic movement, especially on stretching the forearms, that mimics myoclonic movement.
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PMID:[A case of cerebellar ataxia showing severe dystonia masquerading as myoclonic jerky movements on arm extension]. 1235 58

Previous positron emission tomography (PET) studies have shown that nonmanifesting carriers of the DYT1 dystonia mutation express an abnormal pattern of resting glucose metabolism. To determine whether motor behavior is impaired in these subjects, we compared movement and sequence learning in 12 clinically unaffected DYT1 carriers with 12 age-matched controls. Regional differences in brain function during task performance were assessed with simultaneous H(2) (15)O/PET. We found that motor performance was similar in the DYT1 and control groups, with no significant differences in movement time and spatial accuracy measured during each of the tasks. In contrast, sequence learning was reduced in gene carriers relative to controls (p < 0.01). PET imaging during motor execution showed increased activation in gene carriers (p < 0.001, uncorrected) in the left premotor cortex and right supplementary motor area, with concomitant reduction in the posterior medial cerebellum. During sequence learning, activation responses in DYT1 carriers were increased in the left ventral prefrontal cortex, and lateral cerebellum. These findings suggest that abnormalities in motor behavior and brain function exist in clinically nonmanifesting DYT1 carriers. Although localized increases in neural activity may enable normal movement execution in these subjects, this mechanism may not compensate for their defect in sequence learning.
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PMID:Impaired sequence learning in carriers of the DYT1 dystonia mutation. 1283 25

We used [(18)F]-fluorodeoxyglucose and positron emission tomography to determine a discrete cerebral pattern of abnormal glucose utilization in dopa-responsive dystonia. Network analysis demonstrated that dopa-responsive dystonia is associated with a specific pattern of regional metabolic covariation, characterized by increases in the dorsal midbrain, cerebellum, and supplementary motor area, as well as reductions in motor and lateral premotor cortex and in the basal ganglia. This pattern was not expressed in mutation carriers for primary torsion dystonia. Dopa-responsive dystonia has a unique metabolic architecture that differs from other inherited forms of dystonia.
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PMID:The metabolic pathology of dopa-responsive dystonia. 1578 54

Glucose transport protein deficiency due to mutation in the GLUT1 gene is characterized by infantile onset and chronic seizure disorder, microcephaly, global developmental delays, and hypoglycorrhachia. We describe a 10-year-old normocephalic male with prominent ataxia, dystonia, choreoathetosis, and GLUT1 deficiency whose motor abnormalities improved with a ketogenic diet. We illustrate the motor abnormalities, at baseline and after ketogenic diet, that characterize this unusual case. This case broadens the phenotype of GLUT1 deficiency and illustrates the importance of cerebrospinal fluid (CSF) evaluation in detecting potentially treatable conditions in children with undiagnosed movement disorders.
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PMID:Atypical GLUT1 deficiency with prominent movement disorder responsive to ketogenic diet. 1614 86

Hypomyelination with atrophy of the basal ganglia and cerebellum (H-ABC) is a rare leukoencephalopathy presenting in the infantile period and characterized by diffuse cerebral hypomyelination, and atrophy of the basal ganglia and cerebellum. As patients with H-ABC lack remarkable laboratory findings, the diagnosis is based on brain magnetic resonance imaging findings alone. Only eight cases have been reported in the literature, and thus the natural course and treatment of this disease are not fully understood. We report a 35-month-old boy with H-ABC who had hemidystonia, hypomyelination, and cerebellar ataxia. We diagnosed H-ABC after considering a thorough differential diagnosis, excluding other diseases involving hemidystonia, hypomyelination, and cerebellar ataxia. Furthermore, technetium-99m ethyl cysteinate dimmer-single-photon emission computerized tomography (Tc-ECD-SPECT) and positron emission tomography with fluorodeoxyglucose (18)F (FDG-PET) revealed decreased blood flow and glucose metabolism in the bilateral lenticular nucleus, thalamus, and cerebellum. A peroral levodopa preparation containing carbidopa (levodopa-carbidopa) was effective at ameliorating and stopping the progression of the patient's dystonia (final effective doses: levodopa, 200 mg/day and carbidopa, 20 mg/day). This is the first case report of a Japanese patient with H-ABC and treatment for this disease. Levodopa-carbidopa may be an effective treatment for H-ABC.
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PMID:Effective treatment with levodopa and carbidopa for hypomyelination with atrophy of the basal ganglia and cerebellum. 1807 42


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