Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0030567 (Parkinson's disease)
 63,064 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A dementing syndrome has been identified in a group of psychiatric cases aged 71-90 years, presenting initially with a subacute/acute confusional state, often fluctuating and associated with visual hallucinations and behavioural disturbances. Clinically, these cases did not meet criteria for a diagnosis of Alzheimer's disease, and many were assigned to the multiinfarct dementia group, although no significant ischaemic lesions were evident at autopsy. Mild extrapyramidal features were apparent in a number of cases but the characteristic clinical triad of Parkinson's disease, i.e., tremor, rigidity, and akinesia, was absent. Detailed neuropathological examination revealed Lewy body formation and selective neuronal loss in brain stem and other subcortical nuclei, accompanied by Lewy body formation in neo- and limbic cortex, at densities well below those previously reported in diffuse Lewy body disease. A variable degree of senile degenerative change was present; numerous senile plaques and minimal neurofibrillary tangles in most cases. Neither the clinical nor the neuropathological features of this group are typical of Parkinson's or Alzheimer's disease, but suggest a distinct neurodegenerative disorder, part of the Lewy body disease spectrum, in which mental symptoms predominate over motor disabilities and lead to eventual psychogeriatric hospital admission. In a sequential series of autopsies conducted on clinically assessed demented patients, neuropathological analysis has indicated that such cases may comprise up to 20% of a hospitalized population of demented old people over the age of 70 years, an observation clearly relevant to the diagnosis and management of dementia in the elderly.
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PMID:Senile dementia of Lewy body type. A clinically and neuropathologically distinct form of Lewy body dementia in the elderly. 215 23

Parkinson's disease (PD) is a common neurodegenerative disease of old age characterized by triad of akinesia, rigidity and tremor, reduction of dopamine (DA) content in the nigrostriatum, and severe degeneration of neuron in the substantia nigra. The significant changes after the use of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) to rhesus monkeys and C57 black mice are (a) serotonin-like reactions and Parkinsonian symptoms in monkeys and "stickclimbing" disturbance in mice; (b) marked DA reduction in substantia nigra (72.5%), putamen (93.3%), caudate nucleus (91.2%) of monkeys and striatum (94%) of mice; (c) reduction of Met-enkephalin (75%) and Leu-enkephalin (66%) in mouse striatum; and (d) severe degeneration of neurons in the substantia nigra of monkeys and mice. The results suggest that MPTP-treated monkey and C57 black mouse provides useful Parkinsonian animal models and produces behavioral, biochemical and histopathological changes similar to those of human PD.
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PMID:[Experimental research on 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine-induced parkinsonian animal models in the rhesus monkey and C57 black mouse]. 216 92

The long term effects of a first line treatment with levodopa or bromocriptine were compared in 36 previously untreated patients with Parkinson's disease in a prospective randomized trial: 18 patients were treated with levodopa alone (mean dose: 485 +/- 71 mg daily) whereas 18 others received bromocriptine alone (mean dose: 55 +/- 6 mg daily) during 36 +/- 3 and 31 +/- 3 months respectively. We observed a similar decrease in the Columbia rating scale but the nature of long term side effects was different in the two groups: patients on levodopa developed peak-dose dyskinesias (5 cases), wearing off akinesia (1 case) and on-off effects (1 case). Under bromocriptine treatment, 2 patients developed severe psychosis whereas one suffered from primary lack of drug effectiveness and 5 others from late decrease of drug effectiveness. These results suggest the potential value of relatively high doses of D2 dopamine agonists (such as bromocriptine) in the first line treatment of Parkinson's disease: however, their use can be limited by their decrease of effectiveness after several years and/or the occurrence of severe neuropsychiatric side-effects.
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PMID:[Comparison of bromocriptine and levodopa as first line treatment of Parkinson's disease: results of a 3-year prospective randomized study]. 218 88

When used to treat patients with Parkinson's disease pergolide acts at dopamine receptors in the corpus striatum to improve locomotor activity, reducing the tremor, gait disturbances, bradykinesia or akinesia and rigidity experienced by such patients. Treatment with pergolide often allows substantial reductions in concomitant levodopa dosage, and occasionally levodopa can be completely replaced by pergolide therapy in short term use. Pergolide has a long duration of action, thus reducing the wearing-off and end-of-dose phenomena frequently seen with long term levodopa therapy, suppressing fluctuations in levodopa response, and increasing total 'on' time. Despite a lack of well controlled studies comparing this drug with other dopamine agonist agents, pergolide appears to result in adverse effects and anti-Parkinson responses similar to those of bromocriptine and lisuride. Thus, pergolide would appear to be at least as useful as other dopamine agonists such as bromocriptine or lisuride for the management of patients with Parkinson's disease when administered in combination with levodopa. Future research should be directed towards establishing which patients are most likely to benefit from pergolide therapy, and clarifying the relative efficacy and safety of the anti-Parkinsonian drugs available to the clinician. If pergolide does provide clinical benefit when substituted for levodopa-adjunct drugs that are producing less than optimal control, this will be an advantage in a disease area which at present has few therapeutic options.
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PMID:Pergolide. A review of its pharmacological properties and therapeutic potential in Parkinson's disease. 218 10

Thirty-seven Japanese autopsy cases with diffuse Lewy body disease (DLBD) were reviewed from a clinicopathological viewpoint. Based on the neuropathological finding of whether or not many concomitant senile plaques (SPs) and/or neurofibrillary tangles (NFTs) are present. DLBD is divided into two forms: a common form and a pure form. In the common form not only numerous Lewy bodies but also many SPs and/or NFTs are found in the cerebral cortex, whereas in the pure form there are no or few senile changes. Of the 37 cases, 28 cases had the common form, and 9 had the pure form of DLBD. In the common form all cases had shown progressive cortical dementia in the presenile or senile period. About 60% of the cases began with memory disturbance, while 25% showed Parkinson's or Shy-Drager syndrome initially. Parkinson's syndrome, consisting mainly of muscular rigidity and akinesia, was usually marked in the later stage, although there were also 8 cases (28.6%) in which no parkinsonian symptoms were detected even in the terminal stage. On the other hand, almost all cases with the pure form of DLBD showed juvenile Parkinson's syndrome, followed by progressive cortical dementia, although there was one presenile case with mild dementia and Parkinson's syndrome. These Japanese cases are compared with cases reported in Western countries.
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PMID:Diffuse Lewy body disease in Japan. 219 40

Madopar Hydrodynamically Balanced System (HBS), a new sustained-release levodopa preparation, was used to control severe nightly disabilities in 15 outpatients suffering from Parkinson's disease in an advanced state and with long-term levodopa therapy. This medication was given ante noctem in addition to an otherwise unchanged daily regimen of levodopa administration. In 13 patients a considerable diminution in nocturnal akinesia and in the frequency of waking up was reached with a mean dosage of 308 mg of Madopar HBS. Early morning akinesia was only slightly alleviated in four patients. The nocturnal off-period pain disappeared in one patient. Adverse effects consisted of nocturnal dyskinesia in two patients and early morning dystonia in another two patients. The regular use of sleeping pills was clearly reduced after Madopar HBS therapy.
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PMID:Madopar HBS in nocturnal symptoms of Parkinson's disease. 223 93

Systemically administered N-methyl-D-aspartate (NMDA) antagonists, MK-801 ((+)5-methyl-10,11-dihydro-5H-dibenzo(a,d)cyclohepten-5,10-imine maleate) and CPP (3-[(+-)-2-carboxypiperazin-4-yl]-propyl-1-phosphonate), potentiate the ability of L-dopa (L-3,4-dihydroxyphenylalanine) to reverse akinesia and to alleviate muscular rigidity in monoamine-depleted rats. On the basis of these findings, it is proposed that NMDA antagonists may be beneficial as adjunctive treatment in the therapy of Parkinson's disease. CPP locally injected into the subthalamic nucleus, entopeduncular nucleus--the rat homologue of the internal pallidal segment--or substantia nigra pars reticulata of monoamine-depleted rats stimulates locomotor activity and alleviates rigidity, whereas local microinjection of CPP into the neostriatum is ineffective. These results make it unlikely that the neostriatum is the site of the antiparkinsonian action of NMDA antagonists in monoamine-depleted rats, whereas the subthalamic nucleus, internal pallidal segment, and substantia nigra pars reticulata appear to be important for the effects of NMDA antagonists.
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PMID:NMDA antagonists potentiate antiparkinsonian actions of L-dopa in monoamine-depleted rats. 225 65

Akinesia refers to failure of willed movement to occur, and bradykinesia refers to slowness of movement that is ongoing. One mechanism of bradykinesia is failure to energize muscles up to the level necessary to complete a movement in a standard amount of time. Akinesia may occur for two possible reasons. One is that the movement is so slow (and so small) that it cannot be seen. A second is that the time needed to initiate the movement becomes excessively long; this can be studied by evaluation of reaction time. One simple factor in prolongation of reaction time is present in patients with rest tremor, who appear to have to wait for a beat of tremor in the agonist muscle of the willed movement in order to initiate the movement. Reaction time studies in patients with Parkinson's disease demonstrate that simple reaction time is delayed, while choice reaction time is normal. Additionally, there does not appear to be any slowness of thinking or difficulty with storage of a motor program. Hence, the difficulty with reaction time in these patients appears to be the time that it takes to execute a motor program. Studies with magnetic stimulation of the motor cortex during the reaction time period seem to support this hypothesis. Slowness of activation of the motor cortex to trigger a movement may well be analogous in mechanism to the slowness of bradykinesia.
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PMID:Clinical neurophysiology of akinesia. 226 21

The paralysis due to lesions of the cortico-spinal tract disturb movements in their different modes while dissociated paralysis result from cortical and particular biopercular lesions. Movements cannot be executed on command whereas they are accomplished in their total complexity when they accompanied certain emotional states or when they are part of an automatic activity. Such a dissociation suggest that the motor program which does not respond to voluntary command will eventually be applied thanks to emotional or affective stimuli. Basal ganglia lesions induce other symptoms. The first to be observed concern the movements and postures implied in automatic series after learning. Akinesias which results from these lesions can be partially controlled by a voluntary command, particularly when helped by sensori stimuli. Such symptoms are observed sometimes from its beginning in the Parkinson's disease. Emotion and sleep are also able to improve these akinesias: therefore they appear either on a deficitary form implying a sensitive reinforcement or on a hyperactive form, which is alleviated by hypotonia and sleep. The localized lesions of striatum or of pallidum provoke identical symptoms but at the interruption of akinesia, a distortion of movement appears, contrary to what is observed in Parkinson's disease. Mechanisms of anticipation and adjustment of postural reaction are disturbed concerning not only the body axis but also the different segments of the limbs. This disturbance provokes unsteadiness and sometimes falls. At the level of the limbs the anomaly of postural reactions slows down the movement and disturbs specially the repetitive gestures.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Akinesia and associated motor involvement in Parkinson's disease and basal ganglia lesions]. 226 22

The GABA/benzodiazepine receptor complex in the basal ganglia of primates treated with the neurotoxin n-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) has been studied by semi-quantitative autoradiography with [3H]flunitrazepam ([3H]FNZ). Systemic treatment with MPTP produced a stable and lasting parkinsonian condition, with pronounced bradykinesia, akinesia and tremor. In the lateral segment of the globus pallidus (GPL) there was a significant reduction of [3H]FNZ binding compared with non-treated animals. There were no significant changes in the [3H]FNZ binding in the caudate nucleus, putamen and medial globus pallidus (GPM). This suggests that MPTP-treatment increases GABA release within the GPL exclusively. In view of the available evidence suggesting increased striatal output, and reduced unit activity within the GPL of the MPTP-treated primate, it seems likely that the striatal GABAergic output to the GPL is overactive in this model of Parkinson's disease. Furthermore, as there is no evidence for a change in GABA function within the GPM using this measure, the striatal neurones which innervate the GPM may be differentially affected by loss of dopamine innervation. In line with structural evidence and extrastriatal dopamine receptor distribution this suggests that the two striatopallidal systems are functionally heterogeneous. A hemi-parkinsonian primate model has also been used in this study. This model was produced by injection of MPTP directly into one carotid artery. The substantia nigra pars compacta (SNc) was destroyed on the injected side alone, and consequently the appearance of parkinsonian symptoms was confined to the contralateral side. [3H]FNZ binding in the GPL appears to be bilaterally reduced in this model, suggesting an interaction between the treated and non-treated side of the brain. In addition there is increased binding in the putamen and GPM with respect to the non-treated side of the brain. The increased [3H]FNZ binding in the GPM of the unilateral model may be due to the greater disruption of the nigropallidal and/or nigrostiatal dopamine neurones relative to the systemic model. The former would have the effect of uncoupling D1 dopamine receptors located on the terminals of striatal efferents from nigropallidal dopamine input, and as D1 dopamine receptors are implicated in the presynaptic control of GABA release from the terminals of striatal efferents, this would consequently reduce the level of GABA release in the GPM. The latter possibility would suggest that striatopallidal neurones projecting to GPM are more resistant to the effects of dopaminergic denervation than those projecting to GPL.
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PMID:The role of striatopallidal neurones utilizing gamma-aminobutyric acid in the pathophysiology of MPTP-induced parkinsonism in the primate: evidence from [3H]flunitrazepam autoradiography. 228 39


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