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)

A NEW CLASSIFICATION: The advent of molecular genetics has led to a total revision of earlier classifications of primary dystonias. LOCUS DYT-1 PRIMARY DYSTONIA: Locus DYT1, situated on chromosome 9, is responsible for the most common phenotypic expression of generalized primary dystonia, Ziehen-Oppenheim disease. This autosomal dominant disease has variable penetration. It has long been recognized that some individuals in families with typical disease only have segmentary, multifocal or even focal dystonia. It has been proven by molecular genetics that the disease can be expressed simply by familial writers cramp with particularly early, and often bilateral, onset. The mutation concerns the torsine A gene, whose function remains to be elucidated. Torsine A is found in the central nervous system, particularly in the dopaminergic neurons of the locus niger. GENERALIZED PRIMARY DYSTONIA UNRELATED TO DYT-1: These dystonias are phenotypically different: younger and more variable age at onset, focal localization early in the disease course generally involving the cervical or cephalic pole, less severe course. Certain forms are linked to chromosome 8 (locus DYT 6). PRIMARY FOCAL OR SEGMENTARY DYSTONIAS: These primary dystonias cause functional or postural disorders and were long considered as sporadic despite rare familial cases suggesting a genetic factor. When searched for systematically, familial cases are found in 20 to 30% of the cases. The dystonia is transmitted by dominant autosomal heredity with reduced penetration. Phenotypically, expression is heterogeneous with a constant frequency of unrecognized or neglected forms and of postural forms. One form is known to be linked to chromosome 18 (locus DYT 7). DOPA-RESPONSIVE DYSTONIA: This class represents 5 to 10% of childhood dystonias. The phenotypic expression is polymorphous but symptoms always improve with very small doses of L-dopa. Both sporadic, and more frequently familial, cases are described. Some forms are recessive, caused by mutation of the gene coding for tyrosine hydroxylase, others are autosomal dominant, often linked to mutation of the gene coding for GTP cyclohydrolase. RAPID ONSET DYSTONIA SYNDROME-PARKINSONISM: This dominant autosomal dystonia is quite exceptional, ... and intriguing.
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PMID:[Genetic dystonia]. 1007 76

A 9 1/2-year-old girl suffered from intermitting tremor and jitteriness of her left hand and oral muscles every 4 to 6 weeks with long lasting episodes. Clinically myoclonias and dystonic positioning of the left arm, hand and facial muscles were seen. No evidence of trauma, infection or inborn errors of metabolism was found. Successful therapy with carbamazepine was initiated while L-DOPA failed. An ictal 99m-Tc-HMPAO-SPECT showed severe asymmetry with focal hyperperfusion of the contralateral right thalamus and basal ganglia as well as of the bifrontal cortex, whereas no anatomical lesions were found by MRI. In contrast, an interictally performed 99m-Tc-HMPAO SPECT showed hypoperfusion of the right thalamus and normalisation of the frontal perfusion under medical treatment. These 99m-Tc-HMPAO-SPECT findings may provide new insights into the localisation and pathophysiological pathways of idiopathic childhood dystonia.
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PMID:Follow-up findings in regional cerebral blood flow (r-CBF)-SPECT in a case of idiopathic childhood hemidystonia. Functional neuroimaging and pathophysiological implications. 1010 Feb 36

Tetrahydrobiopterin (BH4) is synthesized from guanosine triphosphate (GTP) by GTP cyclohydrolase I (GCH), 6-pyruvoyltetrahydropterin synthase (PTS), and sepiapterin reductase (SPD). GCH is the rate-limiting enzyme. BH4 is a cofactor for three pteridine-requiring monooxygenases that hydroxylate aromatic L-amino acids, i.e., tyrosine hydroxylase (TH), tryptophan hydroxylase (TPH), and phenylalanine hydroxylase (PAH), as well as for nitric oxide synthase (NOS). The intracellular concentrations of BH4, which are mainly determined by GCH activity, may regulate the activity of TH (an enzyme-synthesizing catecholamines from tyrosine), TPH (an enzyme-synthesizing serotonin and melatonin from tryptophan), PAH (an enzyme required for complete degradation of phenylalanine to tyrosine, finally to CO2 + H2O), and also the activity of NOS (an enzyme forming NO from arginine), Dominantly inherited hereditary progressive dystonia (HPD), also termed DOPA-responsive dystonia (DRD) or Segawa's disease, is a dopamine deficiency in the nigrostriatal dopamine neurons, and is caused by mutations of one allele of the GCH gene. GCH activity and BH4 concentrations in HPD/DRD are estimated to be 2-20% of the normal value. By contrast, recessively inherited GCH deficiency is caused by mutations of both alleles of the GCH gene, and the GCH activity and BH4 concentrations are undetectable. The phenotypes of recessive GCH deficiency are severe and complex, such as hyperphenylalaninemia, muscle hypotonia, epilepsy, and fever episode, and may be caused by deficiencies of various neurotransmitters, including dopamine, norepinephrine, serotonin, and NO. The biosynthesis of dopamine, norepinephrine, epinephrine, serotonin, melatonin, and probably NO by individual pteridine-requiring enzymes may be differentially regulated by the intracellular concentration of BH4, which is mainly determined by GCH activity. Dopamine biosynthesis in different groups of dopamine neurons may be differentially regulated by TH activity, depending on intracellular BH4 concentrations and GCH activity. The nigrostriatal dopamine neurons may be most susceptible to a partial decrease in BH4, causing dopamine deficiency in the striatum and the HPD/DRD phenotype.
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PMID:Regulation of pteridine-requiring enzymes by the cofactor tetrahydrobiopterin. 1032 73

After 10 years of clinical practice (1987-1997), chronic thalamic deep brain stimulation (DBS) is considered to be effective in the treatment of drug-resistant parkinsonian tremor. DBS has produced few side-effects, which are usually reversible. More recently, DBS has been applied to other movement disorders (akinesia and rigidity, dyskinesias, dystonia), using new targets: internal pallidum, subthalamic nucleus. These targets have been selected on the basis of neurophysiological or anatomo-clinical data suggesting they could be effective. Control of L-Dopa peak-dose dyskinesias by thalamic ventralis intermedius nucleus (V.im.) stimulation has been reported by the Lille team, but not by the Grenoble team. We therefore re-examined all teleradioanatomical data of both teams, and compared them with the therapeutic effects. Location of 99 monopolar electrodes of thalamic stimulation, applied to treat parkinsonian tremor, has been retrospectively measured. The Lille team included 21 patients (22 electrodes); the Grenoble team included 52 patients (74 electrodes). L-Dopa dyskinesias were suppressed in all 9 patients in Lille, and improved clearly in only 8 out of 32 patients in Grenoble. The mean center of electrodes was significantly different between both teams, being deeper, more posterior and medial in Lille. This did not correspond to the coordinates of the V.im., but seems to be closer to those of the centromedian and parafascicular complex (CM-Pf), according to stereotactic atlases. Considering only the dyskinetic patients, the therapeutic effects on L-Dopa dyskinesias were related to the differences observed in the electrode position, but not to the team membership. Improvement of L-Dopa dyskinesias was significantly associated with deeper and more medial placement of electrodes. Retrospective analysis of ventriculographic data confirmed that the electrode position and therapeutic effects of DBS are strongly related. Our study suggested that CM-Pf stimulation could control both tremor and L-Dopa dyskinesias. This hypothesis is consistent with neuro-anatomical data showing that CM-Pf is connected to internal pallidum, the stimulation of which controls specifically L-Dopa dyskinesias.
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PMID:[The effect of thalamic stimulation on levodopa induced dyskinesias--evaluation of a new target: the center parafascicular median]. 1048 44

The effects of the novel compound, (-)-OSU6162 ((S)-(-)-3-methylsulfonylphenyl-1-propylpiperidine), on rotational behavior induced by dopamine receptor agonists was investigated in common marmosets (Callithrix jacchus) with unilateral 6-hydroxydopamine lesions. (-)-OSU6162 per se displayed no effect on the animals' behavior. On the other hand, pretreatment with (-)-OSU6162 attenuated rotational behavior induced by apomorphine (apomorphini hydrochloridum), L-DOPA (3,4-dihydroxyphenylalanine), and the dopamine D2 receptor agonist, quinpirole (trans-(-)-4aR-4,4a, 5,6,7,8,8a,9-octahydro-5-propyl-1H-pyrazolol[3,4-g]quinoline hydrochloride), without inducing motor impairment such as akinesia or dystonia. In addition, treatment with (-)-OSU6162 for 5 consecutive days almost completely abolished the rotational behavior provoked by apomorphine and produced a transient subsensitization of such apomorphine-induced effects after it was discontinued. Moreover, pretreatment with (-)-OSU6162 in two monkeys augmented the rotational behavior elicited by the dopamine D1 receptor agonists, SKF-81297 (R(+)-6-chloro-7,8,dihydroxy-1-phenyl-2,3,4, 5-tetrahydro-1H-3-benzazepine hydrobromide) and A-77636 ((-)-(1R, 3S)-3-adamantyl-1-(aminomethyl)-3,4-dihydro-5, 6-dihydroxy-1H-2-benzopyran hydrochloride). The findings indicate that (-)-OSU6162 can exert indirect state-dependent effects that differentially affect dopamine D1 and dopamine D2 receptor agonist-induced behavior.
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PMID:Motor effects of (-)-OSU6162 in primates with unilateral 6-hydroxydopamine lesions. 1068 84

The aim of this study was twofold: (1) to study the predictive validity of the drug-naive, bilaterally MPTP-treated monkey as an animal model of Parkinson's disease (PD), and (2) to investigate the therapeutic and undesired effects of the D1 agonist SKF 82958 as compared to L-DOPA treatment, in drug-naive and L-DOPA pretreated monkeys. A detailed ethogram was used, allowing the separation of therapeutic and undesired effects. Eight weeks after bilateral intracarotid MPTP administration, SKF 82958 (1 mg/kg, n = 4, SKF 82958, naive group) or methyl-L-DOPA + carbi-dopa (10 + 2.5 mg/kg, n = 4, L-DOPA group) was administered intramuscularly for 22 days. After a drug-free period of eight weeks, the L-DOPA group was treated with SKF 82958 for 22 days (SKF 82959, 1 mg/kg, n=4, pretreated). All drug treatments increased the parameters used classically to evaluate dopaminergic drugs, namely body displacement, dyskinesia and dystonia. However, the new detailed analysis revealed that L-DOPA, but not SKF 82958, had therapeutic effects, reflected by an increase in goal-directed fore-limb use. SKF 82958, but not L-DOPA, induced additional undesired effects; including epileptoid behaviours in both drug-naive and drug-pretreated monkeys. In one L-DOPA-unresponsive monkey, SKF 82958 did induce minor therapeutic effects, as well as undesired effects. Although the effects of SKF 82958 on fore-limb movements, rotational behaviours and body displacement were comparable in the naive and pretreated group, SKF 82958 re-initiated undesired effects in the L-DOPA pretreated group from day one. It is concluded that the bilaterally MPTP-treated monkey is an animal model with predictive validity for PD: it adequately predicts the therapeutic effects and undesired effects of L-DOPA. Furthermore, it is concluded that SKF 82958 is less effective than L-DOPA in the treatment of PD, because it did not induce therapeutic effects, but instead elicited several undesired effects.
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PMID:The predictive validity of the drug-naive bilaterally MPTP-treated monkey as a model of Parkinson's disease: effects of L-DOPA and the D1 agonist SKF 82958. 1078 Aug 30

Levodopa-induced dyskinesias (LIDs) in patients with Parkinson's disease are considered to result from the severity of dopaminergic denervation in the striatum, which is an irrevocable phenomenon, and sensitization induced by long-term intermittent administration of levodopa. Taking advantage of the 64% reduction of levodopa treatment allowed in 12 Parkinson's disease patients by continuous high-frequency stimulation of the subthalamic nucleus, we evaluated the severity of parkinsonian motor disability and LIDs during two levodopa challenges performed before the surgical implantation of the stimulation electrodes and after 8.8 months of continuous bilateral subthalamic nucleus stimulation that was interrupted 2 hours before the levodopa test. Motor disability during the "off" and "on" drug periods was unchanged. The severity of LIDs during the "on" period and dystonia during the "off" period decreased by 54% and 62%, respectively. The reduced severity of LIDs in the absence of subthalamic nucleus stimulation demonstrates that the sensitization phenomenon resulting from long-term intermittent levodopa administration is partially reversible.
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PMID:Levodopa-induced dyskinesias in Parkinson's disease: is sensitization reversible? 1080 39

Autosomal dominant DOPA-responsive dystonia (DRD) is usually caused by mutation in the gene encoding guanosine triphosphate-cyclohydrolase I (GTPCH I). We studied 22 families with a phenotype of levodopa-responsive dystonia by sequencing the six coding exons, the 5'-untranslated region and the exon-intron boundaries of the GTPCH I gene. Eleven heterozygous mutations were identified, including five missense mutations, one splice site mutation, two small deletions and two nonsense mutations, in 12 families that included 27 patients and 13 asymptomatic carriers. Six mutations were new and five had already been reported. Four of the mutations caused truncation of the GTPCH I protein. One family carried a base-pair change in the 5'-untranslated region, not detected in controls, that could be responsible for the phenotype. Three of the remaining 10 families had deletions in the parkin gene on chromosome 6, underlining how difficult it is to distinguish, in some cases, between DRD and parkin mutations. No mutations were identified in seven families. The clinical spectrum extended from the classical DRD phenotype to parkinsonism with levodopa-induced dyskinesias, and included spastic paraplegia as well as the absence of dystonia.
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PMID:Levodopa-responsive dystonia. GTP cyclohydrolase I or parkin mutations? 1082 51

Chediak-Higashi syndrome (CHS) is a rare autosomal-recessive disorder characterized by immune deficiency, partial oculocutaneous albinism, and large eosinophilic, peroxidase-positive inclusion bodies in granule-containing cells. The adult form of CHS manifests during late childhood to early adulthood and is marked by various neurologic sequelae, including parkinsonism, dementia, spinocerebellar degeneration, and peripheral neuropathy. We report the case of a 29-year-old man with adult CHS who exhibited a progressive asymmetric parkinsonism, including rest tremor, and axial, cervical, and appendicular dystonia. The diagnosis was confirmed by the presence of characteristic large peroxidase-positive granules within leukocytes and markedly decreased natural killer cell function. Levodopa/carbidopa and amantadine provided benefit for tremor. CHS, although rare, should be considered in the differential diagnosis of young adult parkinsonism.
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PMID:Adult Chediak-Higashi parkinsonian syndrome with dystonia. 1092 82

We describe an autopsy case of parkinsonism with bradykinesia, muscle rigidity, and dementia as major symptoms. The patient had developed bradykinesia at the age of 62, and then muscle rigidity, a parkinsonian posture, bradylalia, and dementia gradually appeared. Neurological examination revealed rigidity in the neck and limbs, with motion and speech being generally slow. He lacked involuntary movements including alien hand, tremor, chorea, and dystonia. Vertical gaze palsy, both upward and downward was noted, but other cranial nerves were intact. He was diagnosed as suffering from PSP clinically based on vertical gaze palsy, bradykinesia, instability on standing and gait, and dementia. Levodopa was only transiently effective. Within three years he became bed-ridden and in a state of akinetic mutism. At age 65 he died from pneumonia. Neuropathology revealed severe neuronal degeneration and gliosis in the substantia nigra. Because atrophy of the tegmentum of brainstem, dentate nuclei, inferior olivary nuclei was very mild and Alzheimer neurofibrillary tangles in the brainstem were relatively few, PSP was ruled out. Cortical neuronal degeneration was not apparent, but in the deep layer of cingulate gyrus, frontal lobe, and insula, there were several ballooned neurons. Gallyas-Braak silver staining showed no tuft-shaped astrocytes, specific for PSP, but it disclosed astrocytic plaques in the basal ganglia and the cerebral cortex. At present, astrocytic plaques are recognized as a hallmark of corticobasal degeneration (CBD), along with ballooned neurons in the cerebral cortex. The present case thus illustrates that CBD has a wide spectrum and may include cases in which degeneration of cerebral cortex is very mild.
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PMID:[An autopsy case of corticobasal degeneration without prominent cortical pathology--an imitator of progressive supranuclear palsy]. 1096 56

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