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 170,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

An autopsy case of a 65-year-old female with dentatorubropallidoluysian atrophy (DRPLA) is reported. Her mother had gait disturbance and died at the age of 63. Her mother's brother developed psychotic symptoms. A daughter of her older sister was observed to have involuntary movement when she admitted to a mental hospital due to post-delivery psychotic state. Her younger brother has developed gait disturbance from about 56-year-old. Her older son has suffered from schizophrenia for long years. Since 58-year-old, she developed cerebellar ataxic gait and three years later, choreic involuntary movement developed in her extremities and face and progressively became prominent. Since 63-year-old, abnormal behavior brought about by the visual hallucination was occasionally observed. At the age of 63, she admitted to a mental hospital because of persistent persecutive delusion for her husband and was clinically diagnosed as Huntington's chorea for her remarkable choreic movement and psychotic state with dementia. Hypertension was also noticed. At the age of 65, she died of acute pneumonia. The duration of her illness was about 6 years. Histopathological findings of the CNS: the brain weighed 1,014 g. Brainstem and spinal cord were noticed to be relatively small in size. The cerebral cortex was well preserved. The cerebral white matter was diffusely demyelinated in the central semiovale where arteriosclerotic change of the small vessels was remarkable. Significant pathological changes consisted of marked symmetrical atrophy of the following two systems, i. e., dentatofugal pallidoluysian systems.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[An autopsy case of dentatorubropallidoluysian atrophy (DRPLA) clinically diagnosed as Huntington's chorea]. 293 81

Between July 1985 and December 1986, 29 near-drowned children ranging in age between 6 months and 13 yr were admitted to the Pediatric ICU of Huntington Memorial Hospital. Eight patients suffered cardiopulmonary arrest and had an admission Glasgow Coma Score of 3 or 4. Hemodynamic monitoring was performed on five of these patients. Three received cerebral resuscitation with controlled hyperventilation, hypothermia, pentobarbital, and mannitol because of intracranial hypertension. After CPR, a low cardiac index (CI) and high systemic vascular resistance index (SVRI) were found. When cerebral resuscitative therapy was initiated later, it caused a reduction of SVRI, CI, mean arterial pressure, and cerebral perfusion pressure. Fluid volume therapy and inotropic cardiac support was necessary to maintain adequate cerebral perfusion pressure. These observations indicate that cerebral resuscitative therapy can affect cardiovascular function. The hemodynamic depressive effects might even worsen the outcome. For this reason, it is advisable to obtain CI and pulmonary capillary wedge pressure to optimize cerebral perfusion and potentially neurologic outcome.
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PMID:Cardiac performance in pediatric near-drowning. 276 77

The rapid pace of gene discovery has led to new opportunities for clinical diagnosis using molecular genetic technologies. Recent achievements include the culmination of the 10-year search for the Huntington's disease gene, the identification of predisposing genes for certain familial colon cancers, and the characterization of potential genetic risk indicators for Alzheimer's disease, hypertension, and coronary heart disease. These advances, coupled with the previous discoveries of important disease genes (e.g. those for cystic fibrosis, Duchenne muscular dystrophy, and fragile X syndrome) have quickly expanded the capacity of genetic analysis, allowing the design of enhanced and novel approaches for diagnostic testing. The transfer of molecular technology to the area of clinical genetic analysis, although associated with many potential benefits, has raised some concern regarding the possible misuse of genetic tests and information, particularly with regard to presymptomatic diagnosis of disease and population screening.
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PMID:Diagnosis and the new genetics. 776 49

We report a patient with long-standing systemic hypertension who developed progressive generalized chorea and dementia beginning at 70 years of age with no family history or other features to suggest Huntington's disease. At postmortem examination, congophilic angiopathy and atherosclerosis causing neostriatal neuronal loss and gliosis were found, in addition to plaques and neurofibrillary tangles in the cortex. This case is a rare demonstration of a vascular pathology causing late onset generalized chorea in association with dementia due to Alzheimer's-type cortical changes.
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PMID:Vascular chorea: case report with pathology. 796 13

Genetic and other defects leading to brain changes in Down syndrome, Alzheimer disease, amyotrophic lateral sclerosis, Huntington disease, Gaucher disease, hypertension and other disorders are rapidly being identified. If brain access were possible, new candidates for gene replacement therapy, antisense oligonucleotides, immune proteins or growth factors might be used for treating these disease (Lowenstein et al., 1994; Wielbo et al., 1995). Further, a number of drugs, peptides, antibodies and biological response modifiers have proven valuable in inhibiting malignant, infectious and other pathological processes in vitro, but are unlikely to be employed clinically because of their limited access to brain.
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PMID:Modulation of blood-brain barrier permeability. 886 35

Since fiscal year 1991, the U.S. Human Genome Project has spent $170.6 million in federal funds to help isolate genes associated with Huntington's disease, amyotrophic lateral sclerosis, neurofibromatosis types 1 and 2, myotonic dystrophy, and fragile X syndrome and to localize genes that predispose people to breast cancer, colon cancer, hypertension, diabetes, and Alzheimer's disease. Now comes the hard part. Biology's 21st century megaproject starts to look relatively manageable compared to another challenge facing the enterprise: sorting out ethical, legal, and social issues associated with using this information. "The Human Genome Project," wrote Senior Editor Barbara Jasny in the October 1 Science editorial, stretches "the limits of the technology and the limits of our ability to ethically and rationally apply genetic information to our lives."
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PMID:Ethical, legal, and social issues of the Human Genome Project: what to do with what we know. 971 68

The aetiopathogenesis of schizophrenia constitutes nowadays one of the major points of interest for researchers on this cosmopolitan disorder which involves about 1% of the world population and which significantly alters the social functioning of the individual. Numerous studies have focused on the role played by genome, environmental factors and biology in the development of symptoms. The neurodevelopmental theory is an illustration with the perinatal period considered as the main provider of environmental factors (hypertension, infections, bleedings during pregnancy, acute and chronic fetal distress.). Many authors found significant associations between such factors, the occurrence of brain lesions and finally schizophrenic symptoms. Although no convincing genetic model had been established to date for schizophrenia, nevertheless it appears that a predisposition not inheritable under the mendelian mode exists and authors showed that disease gets more and more severe over schizophrenic descendants. The risk to be schizophrenic being a first degree relative of the schizophrenic person is about ten time superior than in general population. Indeed, this risk is also about ten time superior in biological parents of schizophrenic adoptees than in biological parents of healthy adoptees. Studies done in monozygotic comparing to dizygotic twins are in favour of an important role played by genetic factors more than socioeducational or psychological factors. Concerning biology, the dopaminergic hypothesis remains shared by numerous authors although direct links with incriminated factors are not well established. Now is suspected the glutamate excitotoxicity with implication of free radicals in schizophrenia. These free radicals are products of various enzymatic activations led by overstimulation of post synaptic receptors (NMDA and AMPA) by the excess glutamate. Therefore, according to that concept, some amino acids as glutamate and derivatives could have through free radicals a noxious effect on neuronal synapses. This could be due to a failing of their recapture at the presynaptic level in addition to a dysfunctioning of the antioxidizing system (glutathion, carnosine, superoxide dismutase, aspartate) to which dopamine and other monoamines might participate. The question is whether or not this theory contributes to shed light on links between: genome, environmental factors and biology in schizophrenia. Through the review and discussion of genetical aspects of schizophrenia, environmental factors and the biological aspect, we intend to revive debate on that question. The articles and authors were selected with regard to the aptness of their publications on that subject, their evolving ideas and finally the interest of their works for neurosciences. This new approach perhaps is opening the way to new therapeutic perspectives in the treatment of schizophrenia based on the antioxidizing substances as shown for some neurological diseases (amyotrophic lateral sclerosis, Parkinson's disease and Huntington's chorea) for which experiments are going on.
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PMID:[Do the glutamate excitotoxicity theory and potential free radicals implication in schizophrenia aetiopathogenesis provide a new enlightenment to links between: genome, environment and biology in the determinism of that disorder?]. 1197 41

Neurodegenerative diseases (NDD) are a group of illness with diverse clinical importance and etiologies. NDD include motor neuron disease such as amyotrophic lateral sclerosis (ALS), cerebellar disorders, Parkinson's disease (PD), Huntington's disease (HD), cortical destructive Alzheimer's disease (AD) and Schizophrenia. Numerous epidemiological and experimental studies provide many risk factors such as advanced age, genetic defects, abnormalities of antioxidant enzymes, excitotoxicity, cytoskeletal abnormalities, autoimmunity, mineral deficiencies, oxidative stress, metabolic toxicity, hypertension and other vascular disorders. Growing body of evidence implicates free radical toxicity, radical induced mutations and oxidative enzyme impairment and mitochondrial dysfunction due to congenital genetic defects in clinical manifestations of NDD. Accumulation of oxidative damage in neurons either primarily or secondarily may account for the increased incidence of NDD such as AD, ALS and stroke in aged populations. The molecular mechanisms of neuronal degeneration remain largely unknown and effective therapies are not currently available. Recent interest has focused on antioxidants such as carotenoids and in particular lycopene, a potent antioxidant in tomatoes and tomato products, flavonoids and vitamins as potentially useful agents in the management of human NDD. The pathobiology of neurodegenerative disorders with emphasis on genetic origin and its correlation with oxidative stress of neurodegenerative disorders will be reviewed and the reasons as to why brain constitutes a vulnerable site of oxidative damage will be discussed. The article will also discuss the potential free radical scavenger, mechanism of antioxidant action of lycopene and the need for the use of antioxidants in the prevention of NDD.
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PMID:Role of oxidative stress and antioxidants in neurodegenerative diseases. 1238 92

The beta-propeller fold appears as a very fascinating architecture based on four-stranded antiparallel and twisted beta-sheets, radially arranged around a central tunnel. Similar to the alpha/beta-barrel (TIM-barrel) fold, the beta-propeller has a wide range of different functions, and is gaining substantial attention. Some proteins containing beta-propeller domains have been implicated in the pathogenesis of a variety of diseases such as cancer, Alzheimer, Huntington, arthritis, familial hypercholesterolemia, retinitis pigmentosa, osteogenesis, hypertension, and microbial and viral infections. This article reviews some aspects of 3D structure, amino acids sequence regularities, and biological functions of the proteins containing beta-propeller domains. Major emphasis has been laid on beta-propellers whose functions are associated to human diseases. Recent research efforts reported in the fields of protein engineering, drug design, and protein structure-function relationship studies, concerning the beta-propeller architecture, have also been discussed.
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PMID:Beta-propellers: associated functions and their role in human diseases. 1257 Jun 95

WW domains are protein modules that bind proline-rich ligands. WW domain-ligand complexes are of importance as they have been implicated in several human diseases such as muscular dystrophy, cancer, hypertension, Alzheimer's, and Huntington's diseases. We report the results of a protein array aimed at mapping all the human WW domain protein-protein interactions. Our biochemical approach integrates parallel synthesis of peptides, protein expression, and high-throughput screening methodology combined with tools of bioinformatics. The results suggest that the majority of the bioinformatically predicted WW peptide ligands and most WW domains are functional, and that only about 10% of the measured domain-ligand interactions are positive. The analysis of the WW domain protein arrays also underscores the importance of the amino acid residues surrounding the WW ligand core motifs for specific binding to WW domains. In addition, the methodology presented here allows for the rapid elucidation of WW domain-ligand interactions with multiple applications including prediction of exact WW ligand binding sites, which can be applied to the mapping of other protein signaling domain families. Such information can be applied to the generation of protein interaction networks and identification of potential drug targets. To our knowledge, this report describes the first protein-protein interaction map of a domain in the human proteome.
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PMID:A map of WW domain family interactions. 1499 88


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