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Query: UMLS:C0011849 (
diabetes
)
277,896
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
As suggested from clinical data and on the basis of human leukocyte antigen (HLA) data, insulin-dependent
diabetes mellitus
(IDDM) is a disease entity in itself and is different from non-insulin-dependent
diabetes
and other types of
diabetes mellitus
in aetiology and pathogenesis. HLA-B8 is associated with IDDM in all Caucasian populations studied, irrespective of the age of onset of the disease.
HLA-B15
is associated with IDDM in populations of Northern European and British origin, while B18 seems to replace B15 in Southern European populations. IDDM is uncommon in populations where the HLA-B8 frequency is low, and in the Japanese IDDM occurs in association with Bw22. The HLA-Dw3 and Dw4 association with IDDM is stronger than that of the B alleles. Relative risks for B8 and B15 heterozygous and homozygous individuals are identical, i.e., no gene-dose effect exists. The relative risk of B8/B15 carriers is double that of relative risks of B8 and B15 alone, i.e., there are two IDDM-associated genes. The same applies to Dw3/Dw4 carriers. In families the phenotype IDDM segregates with a certain genotype, the diabetic proband's HLA haplotype. Only a small proportion of family members carrying the 'diabetic haplotype' develop IDDM.
...
PMID:HLA and insulin-dependent diabetes mellitus. 11 82
We studied the distribution of HLA-A, -B, and -C antigens in 94 juvenile-onset diabetic patients and of HLA-DR antigens in 62 of these patients. The frequencies for
HLA-B15
, -B40, and -Cw3 were significantly increased in the patient group as compared with the control group. With respect to the B-cell specificities, DRw4 was significantly increased in the patients. Analysis of the data to detect the possible presence of primary and secondary associations between HLA alleles and diabetogenic gene(s) indicated that DRw4 possessed a primary association with the diabetogenic gene(s). As a result, B15, B40, and Cw3 possessed secondary associations.
Diabetes
1979 Jan
PMID:Juvenile-onset diabetes HLA-A, -B, -C, and -DR alloantigens. 75 44
By typing a large quantity of family-based material for HLA-B, HLA-DR, C4, C2 and factor B, we were able to derive four-gene complement haplotypes (C4A, C4B, C2, BF) and six-gene MHC haplotypes (HLA-B, complement, HLA-DR). Fourteen six-gene MHC haplotypes showed linkage disequilibrium but exact frequencies could not be determined because it was not always possible to assign null C4 alleles in families where null genes were not clearly seen to segregate. Comparison of unrelated type I
diabetes
, Graves' disease and Hashimoto's thyroiditis patients with healthy unrelated controls revealed the following MHC allele associations: C4B*3, HLA-DR3 and HLA-DR4 with type I
diabetes
; BF*F1 and HLA-DR3 with Graves' disease; HLA-DR4 with Hashimoto's thyroiditis. By typing families of type I
diabetes
and Graves' disease patients we were able to derive two high-risk DR3+ MHC haplotypes for both type I
diabetes
and Graves' disease. These are HLA-B8 C4A*Q0 C4B*1 BF*S HLA-DR3 and HLA-B18 C4A*3 C4B*Q0 BF*F1 HLA-DR3, and these haplotypes account for most of the associations between these diseases and HLA-DR3. The MHC haplotype
HLA-B15
C4A*3 C4B*3 BF*S HLA-DR4 also carries high risk for type I
diabetes
in this group of patients. Our data suggest that other DR4+ haplotypes, probably containing C4A*3 C4B*1, carry increased risk for type I
diabetes
whereas haplotypes containing DR4 and C4 C4A*3 C4B*Q0 do not. Our phenotype data suggest that DR4 in Hashimoto's thyroiditis is frequently associated with HLA-B44, C4A*3, C4B*1 and BF*S.
...
PMID:Class III alleles and high-risk MHC haplotypes in type I diabetes mellitus, Graves' disease and Hashimoto's thyroiditis. 346 Dec 34
The prevalence of tissue type
HLA-B15
has been shown to be higher in atopic patients with benign migratory glossitis and in patients with insulin-dependent
diabetes mellitus
than it is in the general population. Despite this apparent link, the possible relationship between benign migratory glossitis and insulin-dependent
diabetes mellitus
does not appear to have been investigated previously. This study of 87 diabetic patients and 105 age- and sex-matched nondiabetic control subjects revealed a fourfold increase in the prevalence of benign migratory glossitis in the diabetic group. These results suggest that benign migratory glossitis may be linked to
diabetes mellitus
and that further investigation of this association is warranted.
...
PMID:Benign migratory glossitis in patients with juvenile diabetes. 346 67
Type 1
diabetes
is said to be extremely rare in children in India, where
diabetes
treated with insulin may be due to chronic pancreatic disease or malnutrition. To see whether typical type 1 diabetes occurred in Asian children in the United Kingdom, all known Asian children with
diabetes
in industrial West Yorkshire were ascertained. A total of 17 such children were studied; of these, seven were from three multiplex families and two fathers from these families had
diabetes
. All children were ketosis prone and developed
diabetes
while resident in the UK. There were significant increases in HLA-B8 and HLA-DR3 and increases in HLA-DR4 and HLA-DR3/DR4, while
HLA-B15
was absent. Islet cell antibodies, either IgG or complement fixing, were present in four of 18 subjects tested, all of whom had disease of short duration. The prevalence of type 1 diabetes in Asian children aged 15 years or less in West Yorkshire was 36/100,000, assuming complete ascertainment. It is concluded that typical type 1 diabetes may occur in Asian children and this condition may be more common in families who have migrated to the UK.
...
PMID:Insulin dependent diabetes in Asians. 349 31
The HLA-A,-B,-C,-DR antigens and the complement factors C2, C4 and Bf were determined in 30 insulin-dependent
diabetes mellitus
(IDDM) patients and 30 healthy controls from northern Sweden. Family studies allowed the deduction of extended haplotypes in the HLA and complement systems. Phenotype studies revealed significant associations between IDDM and HLA-DR4 (p less than 0.001), HLA-DR3 (p less than 0.05), HLA-DR3/4 (p less than 0.025), C4-B3 (p less than 0.001) and Bf-S (p less than 0.025). Haplotype studies showed that the extended haplotype [
HLA-B15
, C2-1, C4-A3B3, Bf-S, HLA-DR4] had a particularly strong association to IDDM. This haplotype was found in 10 out of 30 IDDM probands but in none of 30 control children and accounts for practically all the C4-B3 allotypes among the 30 IDDM probands. The C4-B3 gene therefore seems to be a valuable marker for IDDM. No haplotype containing HLA-DR3 was increased in frequency among the IDDM probands. The extended haplotype [HLA-B7, C2-1, C4-A3B1, Bf-S, HLA-DR2] present among the controls was absent in the IDDM probands. The frequency of the extended haplotype [
HLA-B15
, C2-1, C4-A3B3, Bf-S, HLA-DR4] was increased also among the parents to the IDDM probands compared to those of the control parents, whereas the frequency of [HLA-B7, C2-1, C4-A3B1, Bf-S, HLA-DR2] was decreased. The extended haplotype [HLA-B8, C2-1, C4-B1, Bf-S, HLA-DR3] was more common among the males (p less than 0.05) compared to the females in the total material. The family analysis showed that 3 out of 5 affected sibs shared both haplotypes with their IDDM proband. This was the case for only 3 out of 35 unaffected sibs.
...
PMID:Studies of HLA, factor B (Bf), complement C2 and C4 haplotypes in type 1 diabetic and control families from northern Sweden. 363 57
The distribution of major histocompatibility complex (MHC) phenotypes in unrelated patients with Graves' disease or Type I diabetes mellitus and healthy controls was examined. HLA-B8 was increased in both the Graves' disease patients (p = .0018) and
diabetes mellitus
patients (p = .0246) relative to controls. Although C4A*QO is known to show strong linkage disequilibrium with HLA-B8, we could not demonstrate a difference in the frequency of this allele between either group of patients and the controls because the null C4A*QO cannot be accurately estimated from phenotype data. An unusual variant C4B*3 occurred three times in 117 controls, 10 times in 61 Graves' disease patients (p = .0012) and 13 times in 48 diabetic patients (p = 0.74 X 10(-5]. Although C4B*3 is known to show strong linkage disequilibrium with
HLA-B15
, the frequencies of B15 in the two patient groups did not differ from that of the controls considered here. When 28 MHC haplotypes (supratypes) from 14 unrelated patients with Type I
diabetes
were compared with 27 non-
diabetes
supratypes occurring in the same families but not in the patients, 8/28 Type I
diabetes
supratypes were C4AQOB1+, HLA-B8+, and 4/28 were C4B*3+, whereas 1/27 non-
diabetes
supratypes was C4AQOB1+, B8+, and 0/27 was C4B*3+. Of the four C4B*3+
diabetes
positive supratypes, two were
HLA-B15
, one was B5 and one was B40. Finally, the second haplotype of 11
diabetes mellitus
patients known to carry one high risk C4 haplotype was investigated. The second haplotype was the common type C4A3B1 in only 3/11, whereas at least 5/11 had second haplotypes containing C4B*QO, C4B*3, C4B*2 or C4A*4.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Polymorphism of the fourth component of complement in Graves' disease and type I diabetes mellitus. 386 86
We studied the histocompatibility antigens A and B in 300 insulin-dependent diabetics: 200 had proliferative retinopathy and 100 did not. The two groups were matched for known duration of
diabetes
and other clinical features. In both groups the frequencies of HLA-B8, HLA-B18, and HLA-B8/
HLA-B15
were significantly higher, and those of HLA-B7 and HLA-B12 were significantly lower than in healthy controls. The patients with proliferative retinopathy were significantly less often positive for HLA-B7 (X2 = 10.0; Pc < .03) than patients with nonproliferative retinopathy. When both groups were stratified for age at diagnosis, there were additional differences.
HLA-B15
was significantly more frequent in the proliferative retinopathy group with age at diagnosis between 15 and 40 years (nonproliferative retinopathy = 16.4%; proliferative retinopathy = 39.4%; X2 = 7.89, Pc < .03; relative risk = 3.32) and HLA-B7 significantly less frequent (nonproliferative retinopathy = 23.6%; proliferative retinopathy = 5.6%; X2 = 8.0, Pc < .03; relative risk = 0.19). These differences in histocompatibility frequencies between patients with and without proliferative retinopathy indicate a genetic contribution to diabetic retinopathy.
...
PMID:Histocompatibility antigen frequencies in diabetic retinopathy. 615 64
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.
...
PMID:HLA and GM in insulin-dependent diabetes in the Netherlands: report on a combined multiplex family and population study. 658 8
We have studied major histocompatibility complex markers in Caucasian patients with type I diabetes mellitus and their families. The frequencies of extended haplotypes that were composed of specific HLA-B, HLA-DR, BF, C2, C4A, and C4B allelic combinations, which occurred more commonly than expected, were compared on random diabetic and normal chromosomes in the study families. We demonstrated that all of the previously recognized increases in HLA-B8, B18, B15, DR3, and perhaps DR4 could be ascribed to the increase among diabetic haplotypes of a few extended haplotypes: [HLA B8, DR3, SC01, GLO2]; [HLA-B18, DR3, F1C30]; [
HLA-B15
, DR4, SC33]; and [HLA-BW38, DR4, SC21]. In fact, HLA-DR3 on nonextended haplotypes was "protective", with a relative risk considerably less than 1.0. There was a paucity or absence among diabetic patients of several extended haplotypes of normal chromosomes, notably [HLA-B7, DR2, SC31] and [HLA-BW44, DR4, SC30]. The extended haplotype [HLA-BW38, DR4, SC21] is found only in Ashkenazi Jewish patients, which suggests that extended haplotypes mark specific mutations that arise in defined ethnic groups. The data show that no known MHC allele, including HLA-DR3 and possibly HLA-DR4, is per se a marker for or itself a susceptibility gene for type I
diabetes
. Rather, extended haplotypes, with relatively fixed alleles, are either carriers or noncarriers of susceptibility genes for this disease. Thus, the increased frequency (association) or the decreased frequency (protection) of individual MHC alleles is largely explainable by these extended haplotypes.
...
PMID:Extended major histocompatibility complex haplotypes in type I diabetes mellitus. 674 3
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