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)

It is now well recognized that the hypothalamus is an important site of neuropathology in Parkinson's disease (PD). Lewy bodies, a marker of nerve cell degeneration and a pathological hallmark of PD, have been observed frequently in the hypothalamus of PD patients by Lewy (1923) and other investigators and confirmed by more recent systematic studies by Langston & Forno (1978). Both Lewy and Langston & Forno found a predilection of Lewy body formation in specific hypothalamic nuclei with the tuberomammillary, lateral, and posterior areas containing by far the highest average counts per nucleus. Selective vulnerability of the tuberomammillary, lateral, and posterior hypothalamic cell groups to degeneration has been observed also in aging, postencephalitic Parkinsonism, Alzheimer's disease, and schizophrenia. The susceptibility of these particular nuclei to degenerative changes including Lewy body formation is not presently understood nor are the mechanisms by which Lewy bodies are formed in PD and other CNS disorders. Accumulation of amines, a pathological process which follows degeneration of catecholamine-containing neurons in experimental animals, also occurs most frequently in the lateral and posterior hypothalamic areas. In the present communication we propose that in PD, amine accumulation may be a precursor to Lewy body formation and that the susceptibility of certain hypothalamic areas to Lewy body formation may be related to their propensity to accumulate amines. Furthermore, the frequent co-existence of Lewy bodies and Alzheimer's neurofibrillary tangles in the lateral and posterior hypothalamic nuclei suggest that they may share a common pathogenetic etiology. If confirmed, this hypothesis may provide an experimental model by which the formation of Lewy bodies and neurofibrillary tangles may be investigated.
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PMID:Amine accumulation: a possible precursor of Lewy body formation in Parkinson's disease. 130 71

In a recent Editorial published in this Journal, I presented a new and revolutionary method for the treatment of Parkinson's disease (PD). I reported that extracranial treatment with picoTesla magnetic fields (MF) is a highly effective, safe, and revolutionary modality in the symptomatic management of PD. My conclusion was based on experience gained following the successful treatment of over 20 Parkinsonian patients, two of whom had levodopa-induced dyskinesias. None of the patients developed side effects during a several month period of follow-up. In the present communication, I present two reports. The first concerns four Parkinsonian patients in whom picoTesla MF produced a remarkable and sustained improvement in disability. Three of the patients had idiopathic PD and the fourth patient developed a Parkinsonian syndrome following an anoxic episode. In all patients, treatment with MF was applied as an adjunct to antiParkinsonian medication. The improvement noted in these patients attests to the efficacy of picoTesla MF as an additional, noninvasive modality in the therapy of the disease. The second report concerns two demented Parkinsonian patients in whom treatment with picoTesla MF rapidly reversed visuospatial impairment as demonstrated by the Clock Drawing Test. These findings demonstrate, for the first time, the efficacy of these MF in the amelioration of cognitive deficits in Parkinson's disease. Since Alzheimer's pathology frequently coexists with the dementia of Parkinsonism, these observations underscore the potential efficacy of picoTesla MF in the treatment of dementias of various etiologies.
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PMID:Magnetic fields in the therapy of parkinsonism. 130 20

Using a monoclonal antibody directed against the primate nerve growth factor (NGF) receptor, we examined the expression of NGF receptors within neuronal perikarya of normal adult human cerebral cortex (27-98 years old) and individuals with Alzheimer disease (AD). This expression of cortical NGF receptors was compared with that seen in other neurological diseases and normal human development as well as in young and aged nonhuman primates. NGF receptor-containing cortical neurons were not observed in young adults (less than 50 years old) and were observed only infrequently in non-demented elderly individuals (50-80 years old). In contrast, numerous NGF receptor-containing cortical neurons were seen in AD patients of all ages and in one 98-year-old nondemented patient. In advanced age and AD, numerous NGF receptor-positive neurons were located within laminae II-VI of temporal association cortices whereas only a few were seen in the subicular complex, entorhinal cortex, parahippocampal gyrus, and amygdaloid complex. These perikarya appeared healthy, with bipolar, fusiform, or multipolar morphologies and extended varicose dendritic arbors. These neurons failed to express neurofibrillary tangle-bearing material. In contrast to AD, NGF receptor-containing cortical neurons were not observed in Parkinson disease, Pick disease, or Shy-Drager syndrome. The NGF receptor-containing cortical neurons seen in advanced age and AD were similar in morphology to those observed in human fetal cortex. No NGF receptor-containing cortical neurons were observed in young or aged nonhuman primates. These findings suggest that neurons within the human cerebral cortex exhibit plasticity in their expression of NGF receptors in AD and extreme advanced aging.
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PMID:Cortical neurons express nerve growth factor receptors in advanced age and Alzheimer disease. 130 47

To determine whether neurodegeneration in Alzheimer disease brain is associated with degradation of structural cell membrane molecules, we measured tissue levels of the major membrane phospholipids and their metabolites in three cortical areas from postmortem brains of Alzheimer disease patients and matched controls. Among phospholipids, there was a significant (P less than 0.05) decrease in phosphatidylcholine and phosphatidylethanolamine. There were significant (P less than 0.05) decreases in the initial phospholipid precursors choline and ethanolamine and increases in the phospholipid deacylation product glycerophosphocholine. The ratios of glycerophosphocholine to choline and glycerophosphoethanolamine to ethanolamine were significantly increased in all examined Alzheimer disease brain regions. The activity of the glycerophosphocholine-degrading enzyme glycerophosphocholine choline-phosphodiesterase was normal in Alzheimer disease brain. There was a near stoichiometric relationship between the decrease in phospholipids and the increase of phospholipid catabolites. These data are consistent with increased membrane phospholipid degradation in Alzheimer disease brain. Similar phospholipid abnormalities were not detected in brains of patients with Huntington disease, Parkinson disease, or Down syndrome. We conclude that the phospholipid abnormalities described here are not an epiphenomenon of neurodegeneration and that they may be specific for the pathomechanism of Alzheimer disease.
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PMID:Evidence for a membrane defect in Alzheimer disease brain. 131 47

The Lewy body is an intraneuronal inclusion body that is one of the histologic hallmarks of Parkinson's disease, a degenerative disease of the brain. Ultrastructural analysis has shown that the Lewy body is composed of straight 7-20 nm filaments and amorphous elements. Previous light microscopic, immunocytochemical studies have suggested the presence of neurofilament, microtubule, ubiquitin, and paired helical filament-related epitopes in Lewy bodies. Yet the biochemical composition of the Lewy body remains incompletely elucidated. The ultrastructural and immunocytochemical similarities and differences between the Lewy body and the neurofibrillary tangle of Alzheimer's disease raise questions as to their relation to each other and possible shared mechanisms of formation. In this study the authors examine whether ultrastructural immunocytochemical analysis of Lewy bodies confirms the light microscopic data, whether the structures and epitopes of Lewy bodies share with Alzheimer's disease neurofibrillary tangles the property of insolubility in sodium dodecyl sulfate, and speculate about the subunit composition of Lewy body filaments.
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PMID:Filaments of Lewy bodies contain insoluble cytoskeletal elements. 131 25

Based on comparative clinical and morphometric studies in 45 autopsy cases of Parkinson's disease (PD), 27 clinically presenting with akinesia and rigidity (AR-type), 18 with predominant resting tremor (T-type), the neurobiological basis of the major clinical subtypes in PD is discussed. The AR-type showed higher neuronal losses in locus coeruleus (LC) and in medial and lateral parts of substantia nigra (SNM, SNL), suggesting lesion patterns different from the T-type. More severe cell loss in the serotonergic dorsal raphe nucleus was observed in PD patients with depression than in non-depressed ones. Demented PD subjects showed higher cell loss in SNM than non-demented ones indicating dysfunction of the mesocortical dopamine system, and significantly more severe Alzheimer lesions in isocortex and hippocampus. These and other recent data from the literature indicate that some major clinical features of PD are related to lesions of distinct neuronal systems.
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PMID:Clinico-pathological correlations in Parkinson's disease. 132 May 31

Neuropeptide Y, one of the most abundant polypeptides within the nervous system, is co-stored with catecholamines, especially norepinephrine (NE), thus suggesting its possible involvement in pathologies characterized by a noradrenergic impairment. In Parkinson's disease (PD), as well as in multiple system atrophy (MSA), a central noradrenergic deficit has been demonstrated, and in the dementia of Alzheimer type (DAT) an impaired noradrenergic transmission has been postulated. In this study we determined CSF NE and MHPG levels in 29 PD, 15 MSA, 22 DAT patients and in 36 controls, while CSF NPY-immunoreactivity (NPY-ir) levels were measured in 10 PD, 7 MSA, 10 DAT patients and 20 controls. PD, MSA, and DAT patients showed a significant reduction in CSF NPY-ir and NE levels compared with controls, while CSF MHPG levels resulted in a reduction in only the MSA group. Furthermore, an inverse correlation between either NE or MHPG levels and the duration of the orthostatic hypotension was found in MSA patients while for DAT patients the MHPG levels were directly correlated to the severity of cognitive impairment, and inversely to the duration of illness.
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PMID:Cerebrospinal fluid norepinephrine, 3-methoxy-4-hydroxyphenylglycol and neuropeptide Y levels in Parkinson's disease, multiple system atrophy and dementia of the Alzheimer type. 132 Aug 91

At the present time, it seems unlikely that progressive neurodegenerative diseases, such as ALS, Parkinson's disease, and dementia of the Alzheimer type, are triggered by environmental agents with excitotoxic potential. These include excitotoxic agents that behave as glutamate agonists or disrupt energy metabolism: both types elicit permanent but self-limiting neuronal diseases with patterns of neuronal deficit that reflect selective chemical exposure (MPP+ and parkinsonism), differential susceptibility to energy dysmetabolism (NPA and dystonia), or the distribution of glutamate-receptors (domoic acid and memory loss). If environmental agents play an etiologic role in progressive neurodegenerative diseases, they are likely to target a critical, irreplaceable neuronal molecule that is required to maintain long-term neuronal integrity.
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PMID:Are human neurodegenerative disorders linked to environmental chemicals with excitotoxic properties? 132 79

We reviewed computerized tomograms (CT) for basal ganglia and dentate nucleus calcifications in 79 patients with Parkinson's disease (PD), 54 patients with Alzheimer's disease (AD) and 109 controls aged 50 or more. When it was determined, no patient had disturbances in calcium metabolism. We found: (1) 30 subjects out of 242 (12.3%) with calcification located within the lenticular nucleus in 28. (2) Calcifications were unilateral in 11 and asymmetric in 11. (3) The prevalence of calcifications was 21.5% in PD, 9.2% in AD and 7.3% in controls and were significantly more severe in PD than in C and AD (P less than 0.02). (4) PD patients with calcifications were clinically indistinguishable from those without calcification. (5) Calcifications within the basal ganglia were not associated with a levodopa-resistance. We suggest the basal ganglia calcifications are more frequent in PD, but we cannot explain why, since post-synaptic lesions have never been showed in PD.
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PMID:Parkinson's disease and basal ganglia calcifications: prevalence and clinico-radiological correlations. 132 10

The entorhinal territory consists of the entorhinal and transentorhinal regions spreading over the ambient gyrus and anterior portions of the parahippocampal gyrus. The transentorhinal region mediates between the adjoining temporal isocortex laterally and the entorhinal region medially. The entorhinal cortex consists of a molecular layer, followed by an external principal stratum, a cell-sparse lamina dissecans, an internal principal stratum and--within the underlying white matter--a profound cellular layer. The principal strata can each be divided into three layers Pre alpha, beta, gamma, and Pri alpha, beta, gamma. Data obtained from experimental investigations in monkeys reveal that the entorhinal territory serves as a relay station for information from both isocortical association areas and centers of the limbic system. After processing within the entorhinal cortex, this information is transferred to the hippocampal formation via the perforant path. Pathological changes within the entorhinal territory impair this continuous data transfer and contribute to a decline of cognitive functions. Entorhinal involvement associated with impaired cognitive functions is described in cases of Alzheimer's disease, Parkinson's disease, progressive supranuclear palsy, dementia with argyrophilic grains and Huntington's disease.
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PMID:The human entorhinal cortex: normal morphology and lamina-specific pathology in various diseases. 133 86


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