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Query: UMLS:C0011854 (type 1 diabetes)
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Diabetes mellitus is a group of diseases characterized by high levels of blood glucose resulting from defects in insulin production, insulin action, or both. Diabetes is a serious health concern. The number of cases of diabetes mellitus is estimated to grow at a rate of 50% between 2000 and 2010. There are several types of diabetes: type 1 diabetes, type 2 diabetes, gestational diabetes, and other specific types of diabetes. Beta cell dysfunction plays a key role in the physiopathology of diabetes, even when insulin resistance, which is often present in several diabetes-related diseases, is considered among the causes of hyperglycemic type 2 diabetes. The prolonged hyperglycemia that is peculiar to all kind of diabetes has long term complications on several organs and systems. The diagnosis of diabetes is based on the evaluation of glucose plasma levels performed under fasting conditions or two hours after the oral ingestion of 75 grams of glucose. Currently, achieving and maintaining normal plasma levels of glucose are the aims of therapy for both type 1 and type 2 diabetes. Particularly, the therapy for type 1 diabetes is based on the administration of insulin, whereas that of type 2 diabetes changes over the time: diet and physical activity are the first treatments; oral hypoglycemic drugs are used as a second therapeutic step; and the administration of insulin is the last therapeutic option. The principal therapeutic innovation of the past ten years is represented by the tight and flexible control of glucose plasma level obtained by using the insulin analogues produced by recombinant DNA technology.
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PMID:[Diabetes mellitus]. 1452 5

Human placental GH (hPGH) replaces pituitary GH during pregnancy. hPGH is correlated to serum IGF-I in normal pregnancies and in pregnancies complicated by fetoplacental disorders. In gestational diabetes and type 2 diabetes no correlation between hPGH and IGF-I has been found. The relationship between hPGH and IGF-I in type 1 diabetes mellitus has not been investigated thoroughly. Furthermore, hPGH may be involved in the development of insulin resistance during pregnancy. In this prospective, longitudinal study, 51 type 1 diabetic subjects were followed with repeated blood sampling during pregnancy (median, 14 blood samples/subject; range, 8-26). Maternal concentrations of serum hPGH, IGF-I, and IGF-II were measured and compared with insulin requirements and birth characteristics. hPGH was detected from as early as 6 wk gestation. In all subjects, a rise in serum hPGH was observed during pregnancy, and the rise between wk 16 and 25 was correlated to the rise between wk 26 and 35 (P < 0.001). From wk 26 onward, the increase in hPGH values was significantly correlated to the birth weight, expressed as a z-score (r(s) = 0.54; P < 0.001), as were the absolute hPGH values. Also, a positive influence of hPGH on placental weight was found. Serum IGF-I values decreased significantly from the first to the second trimester (P </= 0.021). Serum hPGH correlated to serum IGF-I from wk 24-35, and changes in IGF-I followed the increase in hPGH between wk 26 and 35 (r(s) = 0.53; P < 0.001), as did IGF-II (r(s) = 0.37; P = 0.008). Changes in IGF-I and IGF-II between wk 26 and 35 also correlated to the birth weight z-score (P </= 0.020), but only hPGH remained significant in multiple regression analysis. Similar results were found in the subgroup delivering at term. Interestingly, the increase in hPGH was not correlated to the increase in insulin requirements, nor was any consistent relationship revealed during each gestational period. In conclusion, our study suggests a role for hPGH in the regulation of both IGFs and fetal growth in type 1 diabetes. In contrast, the increase in insulin requirements during pregnancy in type 1 diabetic subjects could not be related to hPGH levels.
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PMID:Human placental growth hormone, insulin-like growth factor I and -II, and insulin requirements during pregnancy in type 1 diabetes. 1297 Mar 10

Diabetes mellitus is the most common metabolic disease. New classifications have recently been proposed by the American Diabetes Association (ADA) and the World Health Organization (WHO). Type 1 (formerly insulin-dependent diabetes mellitus IDDM) is immune-mediated and leads to absolute insulin deficiency. Type 2 diabetes (formerly non-insulin-dependent diabetes mellitus [NIDDM]) is a disease of adult onset and is associated with insulin resistance. Type 3 corresponds to a wide range of specific types of diabetes, including various genetic defects of beta-cell function and insulin action, diseases of exocrine pancreas, endocrinopathies, and drug-induced diabetes. Type 4 is gestational diabetes (Table 1). Diabetics undergoing surgery have increased mortality, and type 1 diabetics are particularly at risk of postoperative complications. Wound complications are increased in diabetics, and healing is severely impaired when glycemic control is poor. However, with the use of modern management plans, the major outcome measures of surgery are comparable in diabetic and nondiabetic patients. Successful management of surgery in diabetic patients requires simple and safe protocols, which are fully understood by all staff and a close liaison among the surgeons, diabetes care team, and anesthetists. There is no consensus on the optimal metabolic management of the diabetic patient during surgery. Several surveys have highlighted the inconsistency with which surgical problems are managed in diabetic patients. The aim of this article is to provide protocols to achieve sensible and practical glycemic control in diabetic patients undergoing surgery.
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PMID:Perioperative management of diabetic patients. 1497 2

Diabetes mellitus is the most frequent metabolic disorder. Just under 5 million people suffer from this disease in Germany. Four types of diabetes mellitus are distinguished: type 1 diabetes, type 2 diabetes, other specific diabetes forms, and gestational diabetes. Many characteristics of diabetes mellitus including skin changes are already manifest in the "prediabetic" stage when glucose tolerance is limited so that every elevation of blood sugar levels must be considered pathological. Changes in skin due to diabetes mellitus can be categorized into four disease groups: skin infections, skin diseases found overly frequently in association with diabetes mellitus, skin alterations due to diabetic complications, and reactions to antidiabetic treatment.
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PMID:[Skin changes in diabetes mellitus]. 1508 79

There is evidence for the role of genetic and environmental factors in feline and canine diabetes. Type 2 diabetes is the most common form of diabetes in cats. Evidence for genetic factors in feline diabetes includes the overrepresentation of Burmese cats with diabetes. Environmental risk factors in domestic or Burmese cats include advancing age, obesity, male gender, neutering, drug treatment, physical inactivity, and indoor confinement. High-carbohydrate diets increase blood glucose and insulin levels and may predispose cats to obesity and diabetes. Low-carbohydrate, high-protein diets may help prevent diabetes in cats at risk such as obese cats or lean cats with underlying low insulin sensitivity. Evidence exists for a genetic basis and altered immune response in the pathogenesis of canine diabetes. Seasonal effects on the incidence of diagnosis indicate that there are environmental influences on disease progression. At least 50% of diabetic dogs have type 1 diabetes based on present evidence of immune destruction of beta-cells. Epidemiological factors closely match those of the latent autoimmune diabetes of adults form of human type 1 diabetes. Extensive pancreatic damage, likely from chronic pancreatitis, causes approximately 28% of canine diabetes cases. Environmental factors such as feeding of high-fat diets are potentially associated with pancreatitis and likely play a role in the development of pancreatitis in diabetic dogs. There are no published data showing that overt type 2 diabetes occurs in dogs or that obesity is a risk factor for canine diabetes. Diabetes diagnosed in a bitch during either pregnancy or diestrus is comparable to human gestational diabetes.
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PMID:Canine and feline diabetes mellitus: nature or nurture? 1528 6

Elevated C-reactive protein (CRP) levels have previously been described before the onset of type 2 diabetes and gestational diabetes. We hypothesized that inflammation, as reflected by elevated CRP levels, can help predict development of islet autoimmunity or type 1 diabetes. Children at risk for type 1 diabetes and followed in the Diabetes Autoimmunity Study of the Young (DAISY) had blood samples drawn and frozen serum saved at various intervals after birth. CRP was measured using a high-sensitivity sandwich enzyme immunoassay. Islet autoantibodies (IAs) were measured using biochemical immunoassays. Elevations in CRP concentrations were significantly more frequent (P < 0.01) in children who later developed type 1 diabetes (8 of 16 children) than in children negative for IAs at their last testing (3 of 26). Children with one or more positive IA were more likely to have elevated CRP concentrations (15 of 36) than IA-negative children (3 of 26; P < 0.01). The finding of elevated CRP levels in infants and young children before the onset of type 1 diabetes adds to the evidence that the disease is an immunoinflammatory disorder. The elevated CRP levels may provide an additional marker for risk of progression to type 1 diabetes.
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PMID:Elevated C-reactive protein levels in the development of type 1 diabetes. 1544 85

Human milk is recommended for infants throughout at least the first year of life. Breastfeeding is also recommended for infants of women with preexisting diabetes or gestational diabetes. Dietary Reference Intakes (DRIs) 2002 provides recommendations for energy and macronutrients for all ages and for pregnancy and lactation. During the first 6 months, infants receive an average of 500 kcal/d from human milk, and during the second 6 months 400 kcal/d. To cover this need for the first 6 months of lactation, women need an additional energy intake of 330 kcal/d plus the approximately 170 kcal/d that is supplied by the women's tissue stores, and for the second 6 months 400 kcal/d. The DRIs also set recommended levels for both the infant and mother for carbohydrate, protein, and fats. Women with type 1 diabetes may have problems initiating breastfeeding, and with hypo- and hyperglycemia during lactation. Breastfeeding may have long-term beneficial effects on glycemia in women with gestational diabetes. More research is needed on all aspects of lactation in women with diabetes.
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PMID:Lactation, diabetes, and nutrition recommendations. 1546 3

The genetic susceptibility for gestational diabetes (GDM) was estimated by comparisons of genotypes within human leukocyte antigen (HLA) and major histocompatibility complex class I chain-related gene A (MICA) in 199 women with GDM and 213 healthy women. At least one of ICA, glutamic acid decarboxylase antibodies, or islet cell antigen-2 antibodies/tyrosine phosphatase antibodies was found in 6.0% (12/199) of women with GDM and were considered as autoimmune GDM, whereas the remaining 187 were considered as nonautoimmune GDM. HLA genotyping was done with polymerase chain reaction and sequence-specific oligonucleotides. MICA polymorphism was determined with polymerase chain reaction and fragment size determination. HLA-DR3-DQ2/x or DR4-DQ8/x and MICA5.0/5.1 were more frequent in autoimmune GDM compared with controls; 92% versus 46% and 42% versus 13% and conferred increased risk (odds ratio [OR] = 13; 95% confidence interval [CI] 1.7-104) and (OR = 4.7; 95%CI 1.4-16). Four other genotypes were more frequent in nonautoimmune GDM compared with controls: HLA-DR7-DQ2/y, 24% versus 14%; DR9-DQ9/y, 9.6% versus 1.9%; DR14-DQ5/y, 7.5% versus 0.94%; and MICA5.0/z, 24% versus 13% and gave increased risk: OR = 2.0; 95%CI 1.2-3.4, OR = 5.6; 95%CI 1.8-17, OR = 8.5; 95%CI 1.9-38, and OR = 2.0; 95%CI 1.2-3.4, respectively. We concluded that autoimmune diabetes with onset during pregnancy is associated with the type 1 diabetes-associated genotypes and also with MICA5.0/5.1, whereas DR7-DQ2/y, DR9-DQ9/y, DR14-DQ5/y, and MICA5.0/z are risk factors for nonautoimmune GDM.
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PMID:Different HLA-DR-DQ and MHC class I chain-related gene A (MICA) genotypes in autoimmune and nonautoimmune gestational diabetes in a Swedish population. 1560 71

Type 2 diabetes is a serious health problem that affects more than 7% of adults in developed countries. Up to 16% of patients with breast cancer have diabetes, and two major risk factors for type 2 diabetes-old age and obesity-are also associated with breast cancer. Three mechanisms have been postulated to associate diabetes with breast cancer: activation of the insulin pathway, activation of the insulin-like-growth-factor pathway, and regulation of endogenous sex hormones. Comparative cohort studies and case-control studies suggest that type 2 diabetes may be associated with 10-20% excess relative risk of breast cancer. Gestational diabetes mellitus, but not type 1 diabetes, might also be associated with excess risk of breast cancer. Moreover, diabetes and its complications can adversely affect cancer therapy and the use of screening, which will thus affect the outcome of patients with breast cancer.
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PMID:Diabetes mellitus and breast cancer. 1568 19

This study aimed to identify potential immunological markers for predicting type 1 diabetes in patients with gestational diabetes mellitus (GDM) and any immunological impairment in their newborn. In 62 GDM patients and 74 women with normal glucose tolerance (NGT), and their babies, we assessed total lymphocytes, T lymphocyte subsets CD3 and CD8 expressing T cell receptor (TCR) alpha/beta or gamma/delta, CD16 and CD19, pancreatic autoantibodies and cytokines (IL-5, IL-2, soluble receptor IL-2). At delivery, umbilical cord blood samples were taken for lymphocyte subpopulations and cytokine measurements. GDM mothers had higher levels of total lymphocytes, CD8 expressing TCR gamma/delta, and lower levels of CD3 expressing TCR alpha/beta than NGT controls. Insulin-treated GDM mothers had lower CD4 and CD4/CD8 ratios, and higher CD8 and IL-5 than diet-treated GDM or controls. Five women were positive for pancreatic autoantibodies, with lower CD4 (p<0.01) and CD4/CD8 ratios (p<0.05), and higher CD8 (p<0.03) and CD19 than GDM and control mothers negative for autoantibodies. GDM newborn had higher CD8 gamma/delta and lower CD16 than NGT babies. There were no significant differences in TNF-alpha concentrations in the cord blood obtained from the GDM and NGT newborn. In conclusion, GDM women and their newborn have lymphocyte subset impairments, which are more important in patients positive for autoantibodies and/or treated with insulin.
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PMID:Lymphocyte subsets and cytokines in women with gestational diabetes mellitus and their newborn. 1597 91

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