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)

We describe a large family with a primary focal dystonia from a small Dutch village on a former island. Twenty-four individuals spanning three generations were examined by two movement-disorder neurologists. Two other movement-disorder neurologists evaluated the videos independently. Subjects were classified as "affected," "possibly affected," or "not affected." A diagnosis was defined if all the neurologists agreed on the definition. Eight definitely affected and four possibly affected subjects were detected. Clinical presentation consisted of mild cranio-cervical-brachial dystonia. Mean age at onset was 45.5 years (range, 39-56). Mean BFMDRS motor score was 4.4 (range, 1-8). Mean TWSTRS score (part I) was 11.3 (range, 8-23). Mutations in DYT1 gene and in the epsilon-sarcoglycan (SGCE) genes were not detected. We could not find linkage to the dominant DYT6, DYT7, DYT13, or the recessive DYT16 loci. The identification and accurate clinical evaluation of large dystonia families not linked to known genes is crucial for further advancement in molecular genetic characterization of focal dystonia.
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PMID:Clinical and genetic characterization of a large Dutch family with primary focal dystonia. 1882 44

Dystonia is a syndrome characterized by sustained muscle contractions, frequently causing twisting and repetitive movements or abnormal postures. It is classified by age at onset, by distribution, and by aetiology. The aetiological classification distinguishes the following categories: primary, dystonia plus, secondary, heredo-degenerative and psychogenic dystonia. Primary dystonia is defined as clinical condition characterized by dystonia as the only neurological abnormality apart from tremor. Different genetic alterations and gene loci have been mapped in familial and sporadic patients. Early onset-primary dystonia (EO-PD) is the most severe form of primary dystonia, with clinical and genetic heterogeneity. It usually starts in one body part, subsequently spreads to involve other body regions with frequent generalization. DYT1 dystonia is transmitted as an autosomal dominant trait with reduced penetrance. The unique underlying mutation is a GAG deletion in the coding region of the TOR1A gene, located at chromosome 9q34. DYT16 dystonia is a novel recessive form of EO-PD, recently described in few patients, caused by mutations in the PRKRA gene located at chromosome 2q31. At least other two loci have been mapped, but there remains a large number of patients with EO-PD in whom no genetic alteration is discovered.
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PMID:Early onset primary dystonia. 1915 30

In addition to pure PD and pure dystonic syndromes, there are a group of disorders with overlapping features. The differential diagnosis of these dystonia parkinsonism syndromes can be complex. In view of the growing list of recognized disorders and recent advances in genetics, we review the autosomal recessive forms of dystonia parkinsonism, summarizing clinical presentations, results of investigations, and response to treatment of gene-proven cases. We concentrate on PANK2-, PLA2G6-, ATP13A2-, FBX07, TAF1-, and PRKRA-associated neurodegeneration. Parkin, PINK1, and DJ-1 are also briefly reviewed.
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PMID:Complicated recessive dystonia parkinsonism syndromes. 1918 14

Task-specific focal upper limb dystonia can be part of the phenotypic spectrum of different types of hereditary dystonia. We investigated whether writer's cramp as presenting symptom is associated with mutations in DYT11, DYT16, or with the DYT1 GAG deletion in 43 patients. No DYT11 and DYT16 mutations were identified. One patient carried the GAG deletion in the DYT1 gene. In our cohort, writer's cramp as presenting symptom is not associated with mutations in DYT11, DYT16, but it can be the sole manifestation of DYT1 GAG deletion mutation carriers.
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PMID:Screening for dystonia genes DYT1, 11 and 16 in patients with writer's cramp. 1944 Nov 35

Presently, 17 distinct monogenic primary dystonias referred to as dystonias 1- 4, 5a,b, 6-8, 10-13 and 15-18 (loci DYT 1-4, 5a,b, 6-8, 10-13, 15-18) have been recognized. Twelve forms are inherited as autosomal dominant, four as autosomal recessive and one as an X-linked recessive trait. Three additional autosomal dominant forms (DYT9, DYT19 and DYT20) might exist based on linkage mapping to regions apparently different from, yet in close proximity to or overlapping with the known loci DYT18, DYT10 and DYT8. Clinically, this group of movement disorders includes pure dystonias and dystonia plus syndromes. In addition, dyskinesias (paroxysmal dystonias), although phenotypically distinct from classical dystonias, are discussed within this group. In pure dystonias, dystonia is occasionally accompanied by tremor. In dystonia plus syndromes, dystonia as the prominent sign concurs with other movement abnormalities such as myoclonus and parkinsonism. In the dyskinesias, dystonia occurs as a paroxysmal sign in association with other movement anomalies and sometimes seizures. While gross neuropathological changes are absent in most primary dystonias, including the paroxysmal forms, striking morphological alterations are found in some, such as in the X-linked dystonia-parkinsonism syndrome (DYT3). Neuropathological findings at the microscopic level have also been reported in several cases of dystonia 1 and 5, both of which were previously thought to be morphologically normal. One locus, DYT14 had been erroneously assigned, by linkage mapping, in a family with dystonia 5. There are two forms of dystonia 5, one autosomal dominant and one autosomal recessive. These forms are designated here as dystonia 5a and dystonia 5b (DYT5a, DYT5b), respectively. The disease gene has been identified in 10 primary dystonias, seven autosomal dominant (TOR1A/DYT1, GCH1/DYT5a, THAP1/DYT6, PNKD1/MR-1/DYT8, SGCE/DYT11, ATP1A3/DYT12 and SLC2A1/DYT18), two autosomal recessive (TH/DYT5b and PRKRA/DYT16) and one X-chromosomal recessive (TAF1/DYT3). This article summarizes all known aspects on each of the monogenic primary dystonias, including phenotype, neuropathology, imaging, inheritance, mapping, molecular genetics, molecular pathology, animal models and treatment. Suggestions for the diagnostic procedure in primary dystonias are given. Although much is now known about the molecular basis of primary dystonias, treatment of patients is still mainly symptomatic. The only exceptions are dystonias 5a and 5b with their excellent long-term response to L-dopa substitution.
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PMID:The monogenic primary dystonias. 1957 24

The dystonias comprise a heterogeneous group of movement disorders. In contrast to the frequent sporadic forms, a variety of rare familial forms are caused by genetic mutations with mendelian inheritance. In recent years, significant progress has been made with regard to the identification of genes causing dystonia, and to the molecular pathophysiology underlying dystonic symptoms. Currently, 18 gene loci have been described causing primary dystonia, dystonia-plus syndromes or paroxysmal dystonia. The most frequent form of inherited dystonia, according to current knowledge, is early-onset generalized DYT1 dystonia, caused by a deletion of three basepairs, GAG, in the DYT1 (TOR1A) gene. It is thought that the protein encoded by this gene, torsinA, participates in association of the endoplasmatic reticulum and the nuclear envelope with the cytoskeleton and hereby might influence the reaction of cells to various stresses and/or the development of specific neuronal populations involved in movement control in the brain. Other genes which have only recently been identified include: THAP1, causing adolescent-onset primary dystonia of mixed type (DYT6); ATP1A3, responsible for Rapid-Onset Dystonia-Parkinsonism (RDP, DYT12); PRKRA, causing young-onset dystonia-parkinsonism (DYT16); and SLC2A1, causing paroxysmal exertion-induced dystonia with haemolytic anemia (DYT18). Further, five other loci for primary dystonia (DYT2, DYT4, DYT7, DYT13 and DYT17) have been identified, for which the causative genes remain to be discovered.
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PMID:[Genetics of dystonia]. 1968 89

Complex regional pain syndrome type 1 (CRPS-1) is a chronic pain disorder that in some patients is associated with fixed dystonia. The pathogenesis of CRPS and its relation to dystonia remain poorly understood. Several genes (so-called DYT genes) identified in other causes of dystonia play a role in mechanisms that have been implicated in CRPS. Because different mutations in the same gene can result in diverse phenotypes, we sequenced all coding exons of the DYT1, DYT5a, DYT5b, DYT6, DYT11, DYT12, and DYT16 genes in 44 CRPS patients with fixed dystonia to investigate whether high-penetrant causal mutations play a role in CRPS. No such mutations were identified, indicating that these genes do not seem to play a major role in CRPS.
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PMID:Systematic mutation analysis of seven dystonia genes in complex regional pain syndrome with fixed dystonia. 2006 31

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

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

The list of genetic causes of syndromes of dystonia parkinsonism grows constantly. As a consequence, the diagnosis becomes more and more challenging for the clinician. Here, we summarize the important causes of dystonia parkinsonism including autosomal-dominant, recessive, and x-linked forms. We cover dopa-responsive dystonia, Wilson's disease, Parkin-, PINK1-, and DJ-1-associated parkinsonism (PARK2, 6, and 7), x-linked dystonia-parkinsonism/Lubag (DYT3), rapid-onset dystonia-parkinsonism (DYT12) and DYT16 dystonia, the syndromes of Neurodegeneration with Brain Iron Accumulation (NBIA) including pantothenate kinase (PANK2)- and PLA2G6 (PARK14)-associated neurodegeneration, neuroferritinopathy, Kufor-Rakeb disease (PARK9) and the recently described SENDA syndrome; FBXO7-associated neurodegeneration (PARK15), autosomal-recessive spastic paraplegia with a thin corpus callosum (SPG11), and dystonia parkinsonism due to mutations in the SLC6A3 gene encoding the dopamine transporter. They have in common that in all these syndromes there may be a combination of dystonic and parkinsonian features, which may be complicated by pyramidal tract involvement. The aim of this review is to familiarize the clinician with the phenotypes of these disorders.
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PMID:Rare causes of dystonia parkinsonism. 2069 31

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