Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0013421 (dystonia)
8,418 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We present the first report of Japanese family with paroxysmal dystonic choreoathetosis (PDC). At least seventeen individuals of this family in six generations were affected by PDC by autosomal dominant inheritance. The affected individuals had attacks of choreoathetosis/dystonia-like involuntary movements without loss of consciousness. These attacks were precipitated by stress, caffeine, menstruation or ovulation, but not by sudden voluntary movements, which are common precipitating factors in paroxysmal kinesigenic choreoathetosis (PKC). MRI studies of the brain revealed no abnormalities. Some of the family members received clonazepam, or garlic with significant therapeutic effects, while one female case improved after hysterectomy. The pathogenesis of PDC remains unknown, but it could be attributed to a form of channelopathy. Recently, two linkage studies were reported and the PDC locus was identified on chromosome 2q, which may lead to clarify the PDC gene. The family described here may be important for the future biochemical and genetic analyses. We also suspect that PDC may relate to endocrinological abnormalities besides channelopathy.
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PMID:[A Japanese family with paroxysmal dystonic choreoathetosis]. 949 Sep 2

Dystonia is a common movement disorder which is thought to represent a disease of the basal ganglia. However, the pathogenesis of the idiopathic dystonias, i.e. the neuroanatomic and neurochemical basis, is still a mystery. Research in dystonia is complicated by the existence of various phenotypic and genotypic subtypes of idiopathic dystonia, probably related to heterogeneous dysfunctions. In neurological diseases in which no obvious neuronal degeneration can be found, such as in idiopathic dystonia, the identification of a primary defect is difficult, because of the large number of chemically distinct, but functionally interrelated, neurotransmitter systems in the brain. The variable response to pharmacological agents in patients with idiopathic dystonia supports the notion that the underlying biochemical dysfunctions vary in the subtypes of idiopathic dystonia. Hence, in basic research it is important to clearly define the involved type of dystonia. Animal models of dystonias were described as limited. However, over the last years, there has been considerable progress in the evaluation of animal models for different types of dystonia. Apart from animal models of symptomatic dystonia, genetic animal models with inherited dystonia which occurs in the absence of pathomorphological alterations in brain and spinal cord are describe. This review will focus mainly on genetic animal models of different idiopathic dystonias and pathophysiological findings. In particular, in the case of the mutant dystonic (dt) rat, a model of generalized dystonia, and in the case of the genetically dystonic hamster (dt(sz)), a model of paroxysmal dystonic choreoathetosis has been used, as these show great promise in contributing to the identification of underlying mechanisms in idiopathic dystonias, although even a proper animal model will probably never be equivalent to a human disease. Several pathophysiological findings from animal models are in line with clinical observations in dystonic patients, indicating abnormalities not only in the basal ganglia and thalamic nuclei, but also in the cerebellum and brainstem. Through clinical studies and neurochemical data several similarities were found in the genetic animal models, although the current data indicates different defects in dystonic animals which is consistent with the notion that dystonia is a heterogenous disorder. Different supraspinal dysfunctions appear to lead to manifestation of dystonic movements and postures. In addition to increasing our understanding of the pathophysiology of idiopathic dystonia, animal models may help to improve therapeutic strategies for this movement disorder.
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PMID:Pathology of idiopathic dystonia: findings from genetic animal models. 956 Aug 45

Non-epileptic paroxysmal dyskinesias present with different forms of extrapyramidal hyperkinesias (dystonia, chorea, athetosis, ballism) in variable combinations and with cerebellar signs, respectively. They may be classified as: 1. paroxysmal dystonias/choreoathetoses (paroxysmal dystonic choreoathetosis = PDC), paroxysmal kinesigenic choreoathetosis = PKC, intermediate form) and 2. paroxysmal ataxias (PA) (PA with myokymia and neuromyotonia, azetazolamide-responsive PA). Nocturnal paroxysmal dystonia is now regarded as one form of nocturnal frontal lobe epilepsy. Research in molecular genetics has substantially contributed to the etiologic understanding of paroxysmal dyskinesias: In different families linkage has been successfully completed for PDC (chromosome 2q) and PA (chromosomes 12p, 19p). PA are now identified as channelopathies with mutations in the potassium channel (PA with myokymia and neuromyotonia) and the calcium channel gene (azetazolamide-responsive PA).
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PMID:[Non-epileptic paroxysmal movement disorders]. 975 15

The clinical, PET (positron emission tomography) and MRI (magnetic resonance imaging) findings of brain studies in eight patients, previously diagnosed to have glutaric aciduria type 1, were retrospectively reviewed. The neurological findings typically consisted of variable degrees of dementia and extrapyramidal symptoms (dystonia, choreoathetosis and rigidity). Both MRI and PET showed involvement of the putamina in all the patients. The PET scan demonstrated lesions in the head of the caudate nuclei in all of the patients. Brain atrophy, and in particular the characteristically-enlarged Sylvian fissures, was better demonstrated by MRI. On the other hand, the cerebral cortex and thalamic structures were found to be normal by MRI in all patients, whereas PET scan showed decreased uptake in the cerebral cortex in seven, and in the thalami in three patients. Correlation between imaging and clinical findings was found to be good when both PET scan and MRI findings of the brain were taken into consideration. Therefore, the functional (PET) and structural (MRI) studies of the brain were complementary in the imaging evaluation of glutaric aciduria type 1.
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PMID:Fluoro-2-deoxyglucose (18FDG) PET scan of the brain in glutaric aciduria type 1: clinical and MRI correlations. 976 Sep 98

The clinical, 18fluorodeoxyglucose positron emission tomography (18FDG PET) and the magnetic resonance imaging (MRI) brain scan characteristics of four patients diagnosed to have 3-methylglutaconic aciduria were reviewed retrospectively. The disease has a characteristic clinical pattern. The initial presentations were developmental delay, hypotonia, and severe failure to thrive. Later, progressive encephalopathy with rigidity and quadriparesis were observed, followed by severe dystonia and choreoathetosis. Finally, the patients became severely demented and bedridden. The 18FDG PET scans showed progressive disease, explaining the neurological status. It could be classified into three stages. Stage I: absent 18FDG uptake in the heads of the caudate, mild decreased thalamic and cerebellar metabolism. Stage II: absent uptake in the anterior half and posterior quarter of the putamina, mild-moderate decreased uptake in the cerebral cortex more prominently in the parieto-temporal lobes. Progressive decreased thalamic and cerebellar uptake. Stage III: absent uptake in the putamina and severe decreased cortical uptake consistent with brain atrophy and further decrease uptake in the cerebellum. The presence of both structural and functional changes in the brain, demonstrated by the combined use of MRI and 18FDG PET scan, with good clinical correlation, make the two techniques complementary in the imaging evaluation of 3-methylglutaconic aciduria.
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PMID:18Fluoro-2-deoxyglucose (18FDG) PET scan of the brain in type IV 3-methylglutaconic aciduria: clinical and MRI correlations. 1008 49

The effects of the gamma-aminobutyric acid (GABA)-potentiating drug gabapentin (1-(aminomethyl) cyclohexaneacetic acid) on severity of dystonia were examined in a hamster model of idiopathic paroxysmal dystonic choreoathetosis. In the genetically dystonic hamster (dt(sz)) recent pharmacological and neurochemical studies suggested that disturbed GABAergic inhibition is involved in the pathogenesis. In line with a case report of beneficial effects in human paroxysmal dystonic choreoathetosis, gabapentin reduced the severity of dystonia in mutant hamsters at doses of 5 and 10 mg kg(-1) i.p. At higher doses (20 and 100 mg kg(-1)), gabapentin, however, failed to exert antidystonic effects. The GABApotentiating activity of gabapentin could explain the antidystonic effects of low doses, while the loss of efficacy at higher doses may be due to other mechanisms of gabapentin.
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PMID:Gabapentin decreases the severity of dystonia at low doses in a genetic animal model of paroxysmal dystonic choreoathetosis. 1022 72

The clinical, pathophysiological and genetic features of some of the paroxysmal movement disorders are reviewed. Paroxysmal kinesigenic choreoathetosis/dyskinesias (PKC/PKD) is a condition in which brief and frequent dyskinetic attacks are provoked by sudden movement. PKC is more common in men and can be idiopathic (commonly familial) or due to a variety of causes. The pathophysiology of PKC is uncertain but it could be an ion-channel disorder. Antiepileptic drugs particularly carbamazepine are very helpful in a large proportion of cases. Paroxysmal exercise induced dystonia (PED) is a rare disorder manifesting as episodes of dystonia mostly affecting the feet induced by continuous exercise like walking or running. Although the initial cases were familial, there is a higher proportion of sporadic cases. The pathophysiology of PED is unknown and antiepileptic drugs are generally unhelpful. In paroxysmal dystonic choreoathetosis/non-kinesigenic dyskinesias (PDC/PNKD) the attacks are of long duration and induced by variety of factors including coffee, tea, alcohol and fatigue but not by sudden movement. PDC can be idiopathic (familial or sporadic) or symptomatic due to a variety of causes. The gene for familial PDC has been linked in 2 families to chromosome 2 q close to a cluster of ion channel genes again suggesting that this disorder may also be a channelopathy. Other paroxysmal disorders include paroxysmal nocturnal dyskinesia, a form of frontal lobe epilepsy in some cases which may be familial with autosomal dominant inheritance (ADNFLE). The gene for ADNFLE in one family has been found to be a mutation in the neuronal acetylcholine receptor gene (CHRNA4) on chromosome 20q. Tonic spasms in multiple sclerosis and Sandiffers syndrome producing intermittent torticollis in infants and children are other paroxysmal movement disorders.
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PMID:The paroxysmal dyskinesias. 1032 9

The clinical data and the imaging findings of the positron emission tomography (PET) and the magnetic resonance imaging (MRI) studies in five patients, previously diagnosed to have propionic acidemia, were retrospectively reviewed. The patients were all normal at birth. The first clinical signs, typically hypotonia and failure to thrive, appeared during the first 2 years of life. With progression of the disease, the neurological findings consisted of variable degrees of dementia and extrapyramidal symptoms, notably dystonia, choreoathetosis and rigidity of variable degrees. Initial cerebral PET and MRI studies were normal. Follow-up MRI examinations showed progressive basal ganglia degeneration, with evidence of atrophy and signal abnormalities within the caudate nuclei and the putamina. The thalamic structures were normal. The PET studies demonstrated increased uptake in the basal ganglia and thalami, followed by decreased uptake in the basal ganglia at a later stage of the disease. The structural (MRI) and the functional (PET) studies of the brain were found to be complementary in the evaluation of propionic acidemia, and were in good correlation with the clinical findings.
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PMID:18Fluoro-2-deoxyglucose (18FDG) PET scan of the brain in propionic acidemia: clinical and MRI correlations. 1041 18

We report on a 2.5-year-old boy with severe mental retardation, choreoathetosis, dystonia, muscle rigidity, opisthotonus and severe hearing impairment. He had history of severe hyperbilirubinaemia immediately after birth presumably due to ABO incompatibility. The history and the clinical picture suggested the diagnosis of Kernicterus. The MR imaging examination upon admission revealed bilateral signal intensity increase in the globus pallidum on T2-weighted sequences. Additionally, our patient showed signal intensity changes within the subthalamic nuclei, which is known to be another characteristic area of bilirubin deposition in Kernicterus.
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PMID:MR findings in a patient with Kernicterus. 1060 75

Hallervorden-Spatz disease is a rare, autosomal-recessive hereditary condition characterized by early onset of progressive movement alterations such as dystonia, rigidity, and choreoathetosis, which is usually associated with pyramidal signs and mental deterioration. The authors report two cases for which diagnosis of Hallervorden-Spatz disease was based on clinical manifestations that appeared during the first year of life, illness progression, and late-stage magnetic resonance imaging findings. The possibility that these two cases, along with other previously described rare instances with similar clinical features, be considered as a variant of subtype of the early-onset type of Hallervorden-Spatz disease is suggested. The need to differentiate these cases from cases of static encephalopathy with mental retardation and motor impairment is also stressed.
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PMID:Hallervorden-Spatz disease: two new early childhood onset cases. 1064 7


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