UMLS:C0025362 - FACTA Search

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Query: UMLS:C0025362 (mental retardation)
15,878 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To study the pathogenesis of central nervous system abnormalities in Down syndrome (DS), we have analyzed a new genetic model of DS, the partial trisomy 16 (Ts65Dn) mouse. Ts65Dn mice have an extra copy of the distal aspect of mouse chromosome 16, a segment homologous to human chromosome 21 that contains much of the genetic material responsible for the DS phenotype. Ts65Dn mice show developmental delay during the postnatal period as well as abnormal behaviors in both young and adult animals that may be analogous to mental retardation. Though the Ts65Dn brain is normal on gross examination, there is age-related degeneration of septohippocampal cholinergic neurons and astrocytic hypertrophy, markers of the Alzheimer disease pathology that is present in elderly DS individuals. These findings suggest that Ts65Dn mice may be used to study certain developmental and degenerative abnormalities in the DS brain.
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PMID:Developmental abnormalities and age-related neurodegeneration in a mouse model of Down syndrome. 891 91

Down syndrome, trisomy of chromosome 21, is well investigated because it is a genetic disease with characteristic mental retardation and precocious dementia of Alzheimer type. Maternal serum markers of human chorionic gonadotrophin unconjugated estriol and amyloid precursor protein, nuchal skinfold on ultrasound and new genetic probes are developed to allow better detection of Down syndrome. The overproduction of A beta 42 because of excessive genes is thought to be a leading factor for early onset of dementia in Down syndrome adults. Animal models and transgenic mice may be helpful in determining the specific gene and pathogenesis for mental retardation and precocious dementia.
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PMID:Down syndrome. 914 96

Down syndrome (DS) is associated with mental retardation, immune disorders and congenital heart diseases. Although it is usually caused by the presence of an extra chromosome 21, a subset of the diagnostic phenotypic features may be caused by the presence of the band 21q22, called the "Down syndrome region". Many proteins important for the immune and nervous systems as CuZn-superoxide dismutase (SOD-1), CD18-beta chain of LFA-1, interferon receptor, APP-amyloid precursor protein, protein S-100 beta are coded by chromosome 21. Overexpression of these molecules may contribute to the thymic derangement that results in anomalous maturation leading to functionally impaired T cells. Many factors have been shown to contribute to the immune deficiency which results in high susceptibility to infections, high rate of malignancies, and autoimmune phenomena in persons with DS. The main disorders in the immune system include thymus abnormalities, changes in cell-mediated immunity, phagocytosis, antibodies-mediated immunity and a high prevalence of autoantibodies in persons with DS. Furthermore, the duplication of chromosome 21 genes may generate most of the pathological changes in the central nervous system. There is an increased prevalence of seizure disorders. Such widespread alterations in the cortical areas seem to account for specific impairments observed in short-term and long-term memory, language skills, and cognitive and learning processes. If all principles of optimal health care and adequate education were followed without exception for persons with DS, then the quality of their life could be improved significantly and they would be able to become productive citizens in the society. (Tab. 5, Fig. 3, Ref. 42.)
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PMID:[Down's syndrome--effect of increased gene expression in chromosome 21 on the function of the immune and nervous system]. 926 31

In Down's syndrome, the presence of three copies of chromosome 21 is associated with premature aging and progressive mental retardation sharing the pathological features of Alzheimer disease. Early cortical dysgenesis and late neuronal degeneration are probably caused by an overproduction of amyloid beta-peptide, followed by an increased cellular oxidation. Interestingly, chromosome 21 codes for superoxide-dismutase and amyloid beta precursor resulting, in Down's syndrome, in an overflow of these gene products and metabolites. We studied Down's fetal brain cortex to evaluate the presence and amount of lipid and protein oxidation markers; moreover, we quantified two forms of glycation end products that are known to be involved in the process of cellular oxidation. All these parameters are significantly increased in Down's fetal brains in comparison to controls, providing the evidence that accelerated brain glycoxidation occurs very early in the life of Down's syndrome subjects.
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PMID:Early glycoxidation damage in brains from Down's syndrome. 950 Oct 12

Fifty-six constrained acetabular components were placed, between April 1988 and February 1993, in fifty-five patients who had had recurrent dislocations (average, six dislocations; range, two to twenty dislocations) of the femoral component after a previous total hip arthroplasty. All patients had additional factors contributing to the instability of the implant, including absence or disruption of the abductor mechanism, poor health, mental retardation, confusion, and Alzheimer disease. One patient was lost to follow-up. The remaining patients were followed clinically for a minimum of three years (average, sixty-four months; range, thirty-seven to ninety-seven months) or until the time of death. During the follow-up interval, only two (4 per cent) of the fifty-five patients had a subsequent dislocation. The use of this type of component should be considered for patients who have recurrent dislocation if other treatment modalities are unlikely to be effective.
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PMID:Salvage of a recurrently dislocating total hip prosthesis with use of a constrained acetabular component. A retrospective analysis of fifty-six cases. 956 79

Down syndrome (DS) is the most common cause of mental retardation in North America, yet little information is available on the natural history of DS in adults. We report on significant medical problems of adults with DS (DS adults) residing in a British Columbia provincial residential center, Woodlands, over the 12-year period from 1981 through 1992. Prospective, yearly health care reviews on 38 DS adults are summarized according to age. Group 1 consists of 18 middle-aged DS adults less than 50 years old, and group 2 comprises 20 elderly DS adults 50 years and older. Significant health problems in all DS adults include untreated congenital heart anomalies (15. 8%), acquired cardiac disease (15.8%), pulmonary hypertension (7.8%), recurrent respiratory infections/aspiration leading to chronic pulmonary interstitial changes (30%), complications from presenile dementia/Alzheimer-type disease (42%), adult-onset epilepsy (36.8%), osteoarthritic degeneration of the spine (31.6%), osteoporosis with resultant fractures of the long bones (55%) or vertebral bodies (30%), and untreated atlantooccipital instability (7.9%). Acquired sensory deficits are significant problems including loss of vision due to early onset of adult cataracts (50%), recurrent keratitis (21%) or keratoconus (15.8%), and significant hearing loss (25%). Behavioral problems (50%), loss of cognitive abilities, and onset of symptoms of Alzheimer disease (group 1: 5.5%; group 2: 75%) pose ongoing challenges for care. In conclusion, the quality of life for adults with DS can be improved by routine, systematic health care screening to identify treatable diseases that may be missed because of poor communication or confusion due to Alzheimer disease.
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PMID:Health care concerns and guidelines for adults with Down syndrome. 1055 65

Down syndrome is caused by over-expression of genes located within a segment of chromosome 21, termed the Down locus. Down syndrome is associated with developmental abnormalities of the central nervous system that result in mental retardation and age-dependent Alzheimer-type neurodegeneration. Some of the neurodegenerative lesions, including A beta amyloid deposition, apoptotic cell death, and aberrant dendritic arborization, are in part due to constitutively increased expression of genes that encode the amyloid precursor protein, superoxide dismutase I, and S100-beta, and located within the Down locus. However, neurodegeneration in Down syndrome is also associated with aberrant expression of genes that are not linked to the Down locus, including the growth associated protein, GAP-43, nitric oxide synthase 3, neuronal thread protein, and pro-apoptosis genes such as p53, Bax, and interleukin-1 beta-converting enzyme. Increased expression of these non-Down locus genes correlates with proliferation of dystrophic neurites and apoptotic cell death, two important correlates of cognitive impairment in Alzheimer's disease. This article reviews the functional importance of abnormal gene expression in relation to Alzheimer-type neurodegeneration in brains of individuals with Down syndrome.
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PMID:Molecular abnormalities of the brain in Down syndrome: relevance to Alzheimer's neurodegeneration. 1066 65

Down's syndrome (DS), occurring in 0.8 out of 1,000 live births, is a genetic disorder in which an extra portion of chromosome 21 leads to several abnormalities. With respect to the nervous system, it causes mental retardation. It is conceived that abnormal neuronal cell death in development is involved, but there is no direct evidence yet. In addition to developmental brain abnormalities, almost all DS brains over 40 years old manifest a similar pathology to Alzheimer's disease (AD), including the presence of senile plaques (SP) and neurofibrillary tangles (NFT). Although there was a debate to segregate dementia from underlying mental retardation, at least some portion of DS patients exhibit deteriorated mental status with aging. The mechanism underlying these abnormalities at the molecular level remains to be elucidated. Recently there have been several reports suggesting abnormalities reflecting increased risk to apoptosis in DS brains. Increased expression of several apoptosis-related genes (p53, fas, ratio of bax to bcl-2, GAPDH) in DS brains has been reported. Cultured neurons from both patients and model animals are reportedly more vulnerable to apoptosis. Overproduction of reactive oxygen species and its causative roles for increased apoptosis in DS tissues are suggested. One possible hypothesis is an increased susceptibility to apoptosis due to p53 overactivation in DS brains. A beta 42, a critical peptide for AD pathology from amyloid precursor protein (APP), can be detected in DS brains. A beta 42 is deposited in SP from an early stage, suggesting common molecular mechanisms in DS and AD. Animal models for DS are important in the search of molecular mechanisms. Several types of models are now available. Future DS studies are expected to integrate information from animal models and human tissues.
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PMID:Neuronal cell death in Down's syndrome. 1066 70

We evaluated the allele (and genotype frequencies in 60 Down syndrome (DS), 25 mothers and 57 controls from Sicily and its relation with mental retardation. DS patients and sex ratio (M:F) was 22.1+/-10.5 and 1.14, respectively. Allele varepsilon4 and varepsilon3 frequencies were respectively lower (P=0.015) and higher (P=0.005) in DS patients compared to controls. Genotype varepsilon3/varepsilon4 and varepsilon3/varepsilon3 were less (P=0.03) and more frequent (P=0.001) in DS patients, with respective odd ratios of 0.31 (CI at 95%: 0.18-0.49) and of 4.4 (CI at 95%: 3.4-5.7). No difference of allele (distribution was found in function of the grades of mental retardation according to DMS-IV. Our results show that the implication of Apo-E4 in the pathogenesis of Alzheimer disease cannot be extrapolated in that of dementia of DS.
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PMID:Allele varepsilon4 of apolipoprotein E gene is less frequent in Down syndrome patient of the Sicilian population and has no influence on the grade of mental retardation. 1140 74

A subset of aged individuals with Down syndrome (DS) exhibits the clinical features of Alzheimer's disease (AD) but our ability to detect dementia in this population is hampered by developmental differences as well as the sensitivity of existing test tools. Despite the apparent clinical heterogeneity in aged individuals with DS, age-associated neuropathology is a consistent feature. This is due to the fact that trisomy 21 leads to a dose-dependent increase in the production of the amyloid precursor protein and subsequently the production of the amyloidogenic fragments leading to early and predominant senile plaque formation. A review of the existing literature indicates that oxidative damage and neuroinflammation may interact to accelerate the disease process particularly in individuals with DS over the age of 40 years. By combining clinical information with measures of brain-region specific neuropathology we can "work backwards" and identify the earliest and most sensitive clinical change that may signal the onset of AD. For the past 50 years, investigators in the fields of mental retardation, developmental disabilities, and aging have been interested in the curious link between AD and DS. The morphologic and biochemical origins of AD are seen in the early years of the lifespan for individuals with DS. Study of the process by which AD evolves in DS affords an opportunity to understand an important link between development and aging. This review will focus on advances in the molecular and clinical basis of this association.
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PMID:Down syndrome and Alzheimer's disease: a link between development and aging. 1155 33

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