UMLS:C0013421 - FACTA Search

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

Segawa disease was first reported in 1971 as 'Hereditary progressive basal ganglia disease with marked diurnal fluctuation'. In 1976, after experience of a 51 year old patient with 43 years non-treatment periods, I confirmed this disease as dystonia. Polysomnographies revealed selective involvement of the dopamine (DA) neuron without involvement of the D2 receptors. These were confirmed by PET studies performed early 90's. The clinical course of this adult patient was correlated to the age variation of the activities of tyrosine hydroxylase (TH) in the striatum and suggested non-progressive decrease of TH at the terminal of the nigrostriatal DA neuron. Histochemical studies confirmed selective involvement of the D1-direct pathways without any pathological changes. In 1990, Fujita and Shintaku suggested the deficiency of the GTP cyclohydrolase I (GCH-I) as the cause of this disease. In 1993, Ichinose and his colleagues clarified the gene of GCH-I as the causative gene. After the discovery of the gene, it is realized that Segawa disease has two clinical types, postural dystonia and action dystonia. The latter with involvement of the DA neuron innervating to the subthalamic nucleus with D1 receptor has focal or segmental dystonia or adult onset cases and provides phenotypical variation.
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PMID:[Japanese originality, clinical symptoms to the causative gene 1 Segawa disease]. 1821 Jul 86

Dopa-responsive dystonia (DRD) is an inherited metabolic disorder now classified as DYT5 with two different biochemical defects: autosomal dominant GTP cyclohydrolase 1 (GCH1) deficiency or autosomal recessive tyrosine hydroxylase deficiency. We report the case of a 10-years-old girl with progressive generalized dystonia and gait disorder who presented dramatic response to levodopa. The phenylalanine to tyrosine ratio was significantly higher after phenylalanine loading test. This condition had two different heterozygous mutations in the GCH1 gene: the previously reported P23L mutation and a new Q182E mutation. The characteristics of the DRD and the molecular genetic findings are discussed.
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PMID:A novel missense mutation pattern of the GCH1 gene in dopa-responsive dystonia. 1834 35

Autosomal dominant GTP cyclohydrolase I (AD GCH 1) deficiency (Segawa disease) is an autosomal dominant dopa responsive dystonia caused by heterozygous mutation of the GCH 1 gene located on 14q22.1-q22.2. Although a number of mutations have been reported, the change remains highly stable within families, and causes a decrease in the tyrosine hydroxylase protein at the nigrostriatal (NS)-dopamine (DA) neuron terminal. In addition, decreased tetrahydrobiopterin levels early in the development affect DA receptors age-dependently, and produce a spectrum of specific symptoms attributed to neuronal changes traced to processes in the development of the NS-DA neuron, related striatal projection neurons, and the output projection of the basal ganglia.
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PMID:Autosomal dominant GTP cyclohydrolase I (AD GCH 1) deficiency (Segawa disease, dystonia 5; DYT 5). 1929 34

Dopa-responsive dystonia (DRD) is a familial childhood-onset disease characterized by fluctuating dystonia, associated with tremor and parkinsonism in some patients. In most families the disease displays autosomal dominant inheritance due to mutations in the GTP cyclohydrolase 1 gene (GCH1). Penetrance and symptom severity display strong female predominance for which gender-specific GCH1 expression has been hypothesized. In this study, GCH1 mRNA expression was measured in cerebellar tissue from 66 healthy human subjects (30 women), and in cerebellar and nigral tissue from eight individuals. No significant difference was found between men and women with small effect sizes observed. Although the correlation between cerebellar and nigral GCH1 expression remains to be further examined, this exploratory study does not support gender-specific GCH1 expression being the basis for the skewed gender distribution observed in DRD patients.
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PMID:GCH1 expression in human cerebellum from healthy individuals is not gender dependent. 1957 77

To evaluate pallidal DBS in a non-DYT1 form of hereditary dystonia. We present the results of pallidal DBS in a family with non-DYT1 dystonia where DYT5 to 17 was excluded. The dystonia is following an autosomal dominant pattern. Ten members had definite dystonia and five had dystonia with minor symptoms. Four patients received bilateral pallidal DBS. Mean age was 47 years. The patients were evaluated before surgery, and "on" stimulation after a mean of 2.5 years (range 1-3) using the Burke-Fahn-Marsden scale (BFM). Mean BFM score decreased by 79 % on stimulation, from 42.5 +/- 24 to 9 +/- 6.5 at the last evaluation. Cervical involvement improved by 89%. The 2 patients with oromandibular dystonia and blepharospasm demonstrated a reduction of 95% regarding these symptoms. The present study confirms the effectiveness of pallidal DBS in a new family with hereditary primary segmental and generalized dystonia.
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PMID:A family with a hereditary form of torsion dystonia from northern Sweden treated with bilateral pallidal deep brain stimulation. 1989 Sep 97

Dopa-responsive dystonia (DRD) is typically caused by heterozygous mutations in GTP cyclohydrolase 1 gene (GCH1). Our aim was to investigate the clinical and genetic features of Chinese DRD patients. We analyzed a cohort of Chinese DRD patients' clinical data. Mutation of the GCH1 gene was screened by direct sequencing. Additionally, multiplex ligation-dependent probe amplification (MLPA) assay targeting the GCH1 and the TH gene to evaluate large exon deletion or duplicate mutation of the genes were performed in point mutation-negative patients. Ten sporadic DRD patients and two pedigrees including six patients were included in the study. The onset age ranged from 3 to 15 years old. All patients initially presented with walking problems due to lower limb dystonia. The delay between onset and diagnosis ranged from 1 to 42 years old. The symptoms were completely or near-completely abolished with low dose levodopa treatment (dosages ranged from 25 mg to 400 mg/day). Direct sequencing in 14 patients found two known mutations (Gly203Arg in exon 5 in four unrelated patients and Met102Lys in exon 1 in one patient) and one new mutation (Thr186Ile mutation in exon 5 in two unrelated pedigrees). A heterozygous exon 2 deletion in the GCH1 gene was found in one of three point mutation-negative patients by MLPA analysis. Our clinical findings in DRD patients were consistent with other studies. GCH1 gene mutations were quite common in Chinese patients. MPLA should be performed in routine deletion analysis of GCH1 in point mutation-negative DRD patients.
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PMID:GCH1 mutation and clinical study of Chinese patients with dopa-responsive dystonia. 2010 70

Advances in the genetics of dystonia have further elucidated the pathophysiology of this clinically and etiologically heterogeneous group of movement disorders. Currently, 20 monogenic forms of dystonia, designated by the acronym DYT, are grouped as 1) pure dystonias, 2) dystonia-plus syndromes, and 3) paroxysmal dystonias/dyskinesias. We summarize recently discovered genes and loci, including the 1) detection of two primary dystonia genes (DYT6, DYT16), 2) identification of the DYT17 locus, 3) association of a dystonia/dyskinesia phenotype with a gene previously linked to GLUT1 (glucose transporter of the blood-brain barrier) deficiency syndrome (DYT18), 4) designation of paroxysmal kinesigenic and nonkinesigenic dyskinesia as DYT19 and DYT20, and 5) redefinition of DYT14 as DYT5. Further, we review current knowledge regarding genetic modifiers and susceptibility factors. Because recognizing and diagnosing monogenic dystonias have important implications for patients and their families with regard to counseling, prognosis, and treatment, we highlight clinical "red flags" of individual subtypes and review guidelines for genetic testing.
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PMID:Genetics of primary torsion dystonia. 2042 35

Dopa responsive dystonia results from abnormalities in the dopamine synthesis pathway which produces an array of phenotypic presentations with equally numerous genotypes. First documented in children in 1971, the 'classic' phenotype is childhood onset, predominantly lower limb dystonia which gradually progresses to generalised dystonia. Other hallmarks of 'classical' dopa responsive dystonia include marked diurnal variation in symptom severity (worse in the evening), subsequent development of parkinsonism and an excellent, sustained response to levodopa. More recently, adult onset variants have been reported. Here we discuss two siblings with dopa responsive dystonia caused by a mutation in the GTP cyclohydrolase 1 gene. Both presented in adulthood with tremor rather than the 'classic' phenotype. A video is presented (available online) followed by a brief discussion of the literature.
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PMID:Two in the hand, an essential lesson in tremor management. 2049 89

Dystonia-plus syndromes represent a heterogeneous group of diseases, where dystonia is accompanied by other neurological features and gene mutations can be detected frequently. Symptomatic dystonias and complex neurodegenerative diseases with dystonia as part of the clinical presentation are excluded from this category. At present, the following disorders are categorized as dystonia-plus syndromes: Dopa-responsive dystonia (DRD) is a mostly pediatric-onset, neurometabolic disorder with two different modes of inheritance: in its autosomal-dominant form, heterozygous mutations of GTP-cyclohydrolase I (GCH1, DYT5) cause DRD with reduced penetrance and excellent and lasting response to levodopa. Autosomal-recessive (AR) forms of DRD are caused by homozygous or compound heterozygous mutations of the tyrosine hydroxylase (TH) or the sepiapterin reductase (SPR) gene. In AR-DRD, the phenotype is generally more severe including cognitive deficits and developmental delay. Diagnosis can be confirmed by analysis of CSF pterine metabolites. Alternatively, comprehensive genetic testing yields causative mutations in up to 80% of patients. Myoclonus-dystonia (M-D) is caused by heterozygous mutations of the epsilon-sarcoglycan gene (SGCE). Dystonia is generally only mild to moderate, and 'lightning-like' myoclonic jerks occur rarely at rest and can be triggered by complex motor tasks like writing and drawing. Both features together with an age at onset below 25 years strongly predict SGCE mutation in M-D and differentiate this genetic disease from other 'jerky' dystonias. The combination of dystonia and parkinsonism can only be rarely observed in non-degenerative syndromes. Besides DRD, two additional syndromes have been classified. Rapid-onset dystonia-parkinsonism (RPD, DYT12) is a rare disorder with an abrupt onset of symptoms over minutes to days, prominent bulbar involvement and parkinsonism with a lack of response to levodopa. Patients with this rare phenotype should be screened for mutation in the Na(+)/K(+) ATPase alpha3-subunit (ATP1A3) gene, even if family history is negative. Recently, a novel form of dystonia-parkinsonism (DYT16) has been found to be linked to mutations in the PRKRA gene, whose relation to basal ganglia disorders is yet unknown .
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PMID:Dystonia-plus syndromes. 2059 Aug 7

Hereditary progressive dystonia with marked diurnal fluctuation (HPD) is a dopa-responsive dystonia, now called autosomal dominant GTP cyclohydrolase 1 deficiency or Segawa disease, caused by mutation of the GCH-1 gene located on 14q22.1 to q22.2. Because of heterozygous mutation, partial deficiency of tetrahydrobiopterin affects tyrosine hydroxylase (TH) rather selectively and causes decrease of TH in the terminals of the nigrostriatal dopamine (NS DA) neurons, projecting to the D1 receptors on the striosome, the striatal direct pathways and the subthalamic nucleus (STN) and the D4 receptors of the tuberoinfundibular tract. The activities of TH in the terminal are high in early childhood decrease exponentially to the stational level around early twenties, and show circadian oscillatron. TH in HPD follows these variations with around 20% of normal levels and with development of the downstream structures show appears characteristic clinical symptoms age dependently. In late fetus period to early infancy, through the striosome-substantia nigra pars compacta pathway failure in morphogenesis of the DA neurons in substantia nigra, in childhood around 6 years postural dystonia through the D1 direct pathways and the descending output of the basal ganglia. Diurnal fluctuation is apparent in childhood but decrease its grade with age. TH deficiency at the terminal on the STN causes action dystonia from around 8 years and postural tremor from around 10 years, focal dystonia in adulthood. Adult onset cases in the family with action dystonia start with writer's cramp, torticollis or generalized rigid hypertonus with tremor but do not show postural dystonia. TH deficiency on the D4 receptors causes stagnation of the body length in childhood. With or without action dystonia depends on the locus of mutation. Postural dystonia is inhibitory disorder, while action dystonia is excitatory disorder. The TH deficiency at the terminal does not cause morphological changes or degenerative process. Thus, levodopa shows favorable effects without any relation to the duration of illness.
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PMID:Hereditary progressive dystonia with marked diurnal fluctuation. 2109 87

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