UMLS:C0011849 - FACTA Search

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Query: UMLS:C0011849 (diabetes)
277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The typing of 22 HLA-A and B antigens in members of 13 families with one child having juvenile diabetes mellitus showed a statistically significant higher frequency of HLA-B8 antigen in sick children (51.54%) as well as high parental heredity rate of this antigen, as compared to 301 normal subjects and 51 normal children of families free from diabetes mellitus. The agreement of 85.71% in one or two haplotypes in diabetic and healthy siblings in 7 families involved antigens other than B8. The results of these family studies confirm the existing relationship between HLA-B8 and juvenile diabetes mellitus as demonstrated by repeated screenings of the patients populations. The relationship of HLA antigens to insulin-dependent juvenile diabetes mellitus has been studied by many authors. The issues of their studies on patient populations revealed HLA-DR3, Dw3, DR4, Dw4, B8, B18, B15, B40, Cw3 and secondarily A1 and A2 to occur with significantly higher frequency. On the other hand, antigens DR2, Dw2, B7 (secondarily A3 and A11) are statistically less frequent in this disease, and their presence therefore means a certain protection against the risk of diabetes (4, 6, 7, 11, 15, 21). Individual authors' family studies differ in conclusions as to the occurrence of some of the above HLA antigens, and the degree of HLA identity of two siblings, one with diabetes, the other one normal (6, 8, 12, 17). For this reason we decided to start investigations on the occurrence of HLA A and B antigens in family members with one child having juvenile diabetes mellitus.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:HLA and insulin-dependent juvenile diabetes mellitus. 641 92

The major genetic susceptibility to Type 1 (insulin-dependent) diabetes is determined by genes within the HLA region located on the short arm of chromosome 6. Ninety-seven percent of Type 1 diabetic patients belonging to the Barts-Windsor family study possess either DR3 or DR4 and about 50% possess both these antigens. This excess of DR3, DR4 heterozygosity can be best explained by postulating two different susceptibility genes which react in an interactive way. No increase in DR3 or DR4 homozygosity is found, nor is there an increase in recombination frequency in these families. Linkage disequilibrium between certain B and DR antigens differs in "diabetic" compared to "non-diabetic" haplotypes. In families with two or more Type 1 diabetic children, the affected siblings are with rare exception either HLA identical or haplo-identical. The results from the prospective Barts-Windsor family study indicate that complement fixing islet cell antibodies are a good marker of on-going immune destruction in the pancreatic islets. There is also a high prevalence of antibodies reacting with certain cells in the pituitary gland in newly diagnosed cases and their unaffected first degree relatives. A possible explanation is that a common virus may be acting to produce damage in several endocrine tissues. The Barts-Windsor family study was initiated in 1978 by the late Andrew Cudworth as a prospective family study to investigate the genetic, immunological and environmental factors involved in Type 1 (insulin-dependent) diabetes. About 200 families with a Type 1 diabetic child and at least one other unaffected sibling under the age of 20 years were ascertained from a defined geographical area of approximately 1500 square km, centered around Windsor, East Berkshire, UK. These families are visited every 3 to 4 months and are regularly screened for autoantibodies, in particular islet cell antibodies, and for viral antibodies and they have all been HLA-A, B, C genotyped. A large proportion have also been genotyped for HLA-DR and for the complement factors Bf, C2 and C4, which are coded by genes within the HLA-region.
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PMID:The genetics of Type 1 (insulin-dependent) diabetes. 641 43

The distributions of HLA-A, -B, -C and -D antigens in 38 black American insulin-dependent juvenile diabetics were studied. Antigens A1, A2, B8 and Cw3 were slightly increased, but the corrected probability values were not statistically significant. As determined by mixed lymphocyte culture, the frequency of Dw3 was 89% in the juvenile diabetics and that of Dw4 was 42% in comparison with 14 and 8%, respectively, in the controls. The relative risks for juvenile diabetes were 52 for Dw3 (p = 10(-8) and 9 for Dw4 (p = 10(-6). Dw2 was significantly decreased in the diabetics (p equals 0.008). All of these deviations in A, B, C and D locus specificities have been previously reported by others in white juvenile diabetics. Because there are white genes in the American black gene pool and juvenile diabetes is rare in blacks in western Africa, many cases of juvenile diabetes in American blacks could be the result of genes ultimately derived from the white genes. This hypothesis is supported by the similar HLA associations in juvenile diabetes in the black and white ethnic groups.
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PMID:HLA types in American black juvenile diabetics strong associations with Dw3 and Dw4. 645 66

Patients with Graves' disease were phenotyped for properdin factor B (Bf) and glyoxalase, which are coded for by genes mapping close to the HLA region on the sixth chromosome. Frequency data were analysed in relation to HLA-A, -B and -DR typing data. Diagnosis of Graves' disease was based on the usual criteria including elevated T3 and T4 levels and free T4 index and a homogeneous thyroid scan. Ninety-four patients with Graves' disease were phenotyped for properdin factor B (Bf) and 37 for red cells glyoxalase (GLO). HLA-A, -B and -DR antigens were typed in 94 patients using a lymphocyte microcytotoxicity assay. The frequency distribution of Bf and GLO alleles showed no significant differences from control subjects. This finding contrasts with the reports of an increased frequency of BfF1 in insulin-dependent diabetes mellitus. The difference in the two diseases which are both associated with an increased frequency of the antigen combination D8-DR3, is accounted for by linkage disequilibrium between B18 and BfF1.
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PMID:Properdin factor B (Bf) and glyoxalase in Graves' disease. 657 32

A group of patients with Type 1 (insulin-dependent) diabetes mellitus was investigated for HLA-A, B and DR antigens as well as C4 and factor B polymorphism. A significant excess of DR3/DR4 heterozygotes was observed (27% versus 17% by Hardy-Weinberg expectation). The factor B allele BfF1 was present in 13% of patients with Type 1 diabetes (gene frequency of 0.08 versus 0.01 in control subjects). A rare C4 B allele, C4 B2.9, was found in 18% of patients with Type 1 diabetes (n = 63) compared with 1.1% of control subjects (n = 176). Total C4 deficiency at the C4 A locus (C4 AQ0,0) was present in 10% of patients with Type 1 diabetes compared with 0% of control subjects. Examination of HLA, C4 and Bf phenotypes in patients with Type 1 diabetes suggested that three high risk supratypes, HLA-A1 B8 BfS C4 AQ0 C4 B1 DR3; HLA-B18 BfF1 C4 A3 C4 BQ0 DR3; HLA-A2 CW3 BW62 BfS C4 A3 C4 B2.9 DR4 are markers for susceptibility alleles.
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PMID:HLA and complement allotypes in Type 1 (insulin-dependent) diabetes. 657 86

HLA-A, B and DR antigens were studied in Mainland Chinese diabetes mellitus patients and controls (31 Type I DM, 50 Type II DM, 105 controls). HLA-DR3 and HLA-A9 were increased in Type I diabetics only. An increase in HLA-DR4 was noted in Type I diabetics, but the increase was not statistically significant in this small series.
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PMID:HLA-A, B and HLA-DR phenotypes in Mainland Chinese patients with diabetes mellitus. 657 96

The HLA status of South African black Type 1 (insulin-dependent) diabetic patients with age of onset under 35 years was compared with that of healthy black control subjects. HLA-A, B and C antigens were determined in 94 patients and 995 control subjects, while DR typing was carried out on 56 patients and 195 control subjects. There was a significant increase in the frequency of DR4 in patients as compared with control subjects (p less than 0.01; relative risk 3.4). DR3/DR4 heterozygosity was associated with a greater relative risk for developing Type 1 diabetes mellitus (3.7) than the presence of DR3 alone (relative risk 1.6). A significant negative association was observed between the presence of BW42 and Type 1 diabetes in this population sample (p less than 0.04; relative risk 0.3). A similar trend was observed with regard to DR2, the corrected p value just attaining statistical significance (p less than 0.05; relative risk 0.1).
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PMID:HLA-A, B, C and DR antigens in young South African blacks with Type 1 (insulin-dependent) diabetes mellitus. 658 68

This report deals with the genetic factors involved in insulin-dependent diabetes mellitus (IDD) in The Netherlands. Twenty-two Dutch multiplex families with IDD were typed for HLA-A, -B, -C, and -DR antigens, for BF, C2, C4, and GLO polymorphisms, as well as for GM allotypes of immunoglobulins. In addition, 53 unrelated IDD children and 31 unrelated patients with adult onset IDD were typed for HLA-A, -B, -C, and -DR antigens. A significant heterogeneity for the frequency of HLA-DR4 related to age of onset was observed. A significant deviation of the Hardy-Weinberg equilibrium was observed for the HLA-DR locus with an excess in patients of heterozygotes HLA-DR3, -DR4.HLA-B8, and HLA-B15 were not only secondary associated, but constituted with HLA-DR3 and -DR4, respectively, a haplotype in association with IDD. Nonrandom segregation of HLA-haplotypes was observed in multiplex families exemplified by an excess of HLA-identical affected sibpairs . Cross- overs between HLA-DR and GLO identified the HLA-DR segment as mainly involved in the association with IDD. Three diabetic haplotypes were confirmed to occur frequently among affected sibs: (a) A1, B8, BFS, C2.1, C4AQO , C4B1 ,DR3, GLO2 ; (b) Aw30, Cw5 ,B18,BFF1,C2.1, C4A3 , C4BQO ,DR3, GLO2 ; (c) A2,Cw3, B15,BFS, C2.1, C4A3 , C4B3 , DR4,GLO1. The segregation of GM allotypes to affected sibpairs was not significantly different from random segregation. The main conclusions from this study are that significant heterogeneity for age of onset exists and that the data are not compatible with simple genetic models including dominant, recessive, and intermediate models of inheritance. The data do require more complex models, involving two different HLA-linked (sets of) susceptibility genes.
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PMID:HLA and GM in insulin-dependent diabetes in the Netherlands: report on a combined multiplex family and population study. 658 8

This study of risk factors for diabetic nephropathy in juvenile Type 1 (insulin-dependent) diabetes mellitus compares two carefully characterised groups of patients, one with proteinuria (n = 23), the other a control group (n = 24) with no evidence of nephropathy despite more than 25 years of diabetic life. No significant difference was observed between the groups in any HLA-A, -B or -DR antigen of Bf allotype. DR3 was present in 87% of patients with proteinuria and 75% of the diabetic control group; DR4 was present in 48% of patients with proteinuria and 63% of diabetic controls; BfFl was present in 17% of patients with nephropathy and 9% of the diabetic control group. Compared with the control group, patients with proteinuria had significantly higher mean diabetic-clinic blood glucose concentrations before the diagnosis of microvascular disease, a significantly earlier age at diagnosis of diabetes, and had more often been treated with once-daily as opposed to twice-daily insulin regimens. Susceptibility to nephropathy in Type 1 diabetes appears to be determined by the quality of metabolic control and age of onset of diabetes; although the number of subjects studied was relatively small no evidence was found of any influence of HLA or Bf phenotype.
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PMID:HLA antigens and risk factors for nephropathy in type 1 (insulin-dependent) diabetes mellitus. 659 Apr 2

One hundred and thirty-three insulin-dependent diabetic (IDD) patients were genotyped for HLA-A, B, C, DR and 123 of them for Bf. The study shows a relationship between these genes and the age of onset of diabetes and emphasizes the possible heterogeneity of the disease. When patients under the age of 0 years at the onset of the disease were compared with those aged 11 to 29 years, a significant excess of HLA-B18 (41% versus 15%, p less than 0.001) and BfF1 (40% versus 21%, P less than 0.05) was observed. The haplotype B18, BfF1 was also more frequent in the first group of patients (haplotype frequency 18% versus 6%, p less than 0.02). The frequency of the whole haplotype Cw5, B18, BfF1, DR3 and of its segment BfF1, DR3, and the strength of the gametic associations between these alleles were much higher in IDD patients than in non-diabetic controls, irrespective of the age of onset of their diabetes. The association between early age of onset of IDD and the B18, BfF1 haplotype independently of DR3 (no association between age and DR3) suggests that a factor influencing the onset of the disease in young children could be under the control of (1) gene (s) in linkage disequilibrium with B18 and/or BfF1.
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PMID:Age--related heterogeneity of insulin-dependent diabetes mellitus. 660 51

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