Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011849 (diabetes)
277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We prospectively conducted a hospital based study to determine the prevalence of vascular complications in NIDDM and their risk factors. Using standard protocol for interviewing, physical examination and laboratory investigations, we studied 207 patients from the diabetic clinic and medical outpatient department (ratio 3.9:1) by systematic sampling. The prevalence of hypertension, coronary heart disease cerebrovascular disease, peripheral and large vessel disease was 22.2, 22.2, 8.2, 21.3 and 34.8 per cent respectively. We found that the prevalence of small vessel disease, retinopathy and nephropathy was 34.3, 25.1 and 12.5 per cent respectively. The complications were slightly higher in females and increased with duration of diabetes. By univariate and logistic regression analysis, we found that the risk factors of large vessel disease were body mass index, diastolic blood pressure, duration of diabetes and for small vessel disease were duration of diabetes and high uric acid.
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PMID:Vascular complications in noninsulin dependent diabetes mellitus (NIDDM) in Srinagarind Hospital, Khon Kaen. 130 93

Basal serum growth hormone and response of GH to GRF in 10 patients with noninsulin-dependent diabetes and in 10 control subjects were studied. The basal GH level in NIDDM was higher than that in control subjects. There was a significant difference. After an intravenous bolus of hGRF 1-29 NH2 with the dose of 1 microgram/kg body weight, GH (Peak level-basal level) decreased in NIDDM patients in comparing with control group (P < 0.05). These findings may suggest that the pituitary GH reserve is reduced in patients with NIDDM. There exists some defect in central GH control in diabetics with enhanced somatostatin secretion and abnormal sensitivity of the GH secretion cells to a variety of regulatory factors including GRF, glucose, amino-acids, free fat acid.
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PMID:[Blunted growth hormone response to hGRF 1-29 NH2 in patients with non-insulin-dependent diabetes mellitus]. 130 83

In this article we have focused on the evolving pattern of nutritional management of the person with diabetes. Before the advent of insulin in 1922, it was sufficient to identify a meal plan that would keep people alive until they could be rescued from mortality due to diabetic ketoacidosis (the major killer of the era) by pharmacologic means. Now, the life expectancy of people with diabetes is close to that of the general population and focus has turned to combating the new threats of macrovascular disease and kidney failure. Over recent years the susceptibility of NIDDM patients to macrovascular events has been established and the twofold increase in risk of a heart attack in diabetic men is outshadowed by the four- to fivefold risk in diabetic women and the 13- to 17-fold greater risk in diabetics under the age of 30 years compared with their nondiabetic counterparts. The mechanism behind the susceptibility to macrovascular disease has generated a veritable plethora of investigations focusing on the atherogenic profile of diabetic dyslipidemia. Hyperinsulinemia, insulin resistance, and overtreatment of the diabetic with insulin have been claimed as contributors to the development of premature atherosclerosis. The hallmark of the diabetic dyslipidemia is the tendency to elevated VLDL triglyceride levels and the closely linked reduction in HDL cholesterol. Although there is some controversy on the relationship between triglyceride levels and the incidence of CAD, there is no doubt that HDL is an independent risk factor. It can now be safely said that elevated triglycerides are a risk factor in women and that in men elevated triglycerides constitute a risk factor if accompanied by a reduced HDL level. For these reasons, any approach to nutritional management of the diabetic must attempt not only to normalize glycemia but to make every effort to reduce the atherogenic profile. In the accompanying algorithm (Fig. 4), we consider the risk factors conducive to a reduction in life expectancy and offer a meal plan that is appropriate for the individual with diabetes. For the 80% of NIDDM patients who are obese, a diet with a reduction of 500 to 1000 kcal is in order and this may be achieved by a periodic VLCD. We examined carefully the controversy related to yo-yo dieting and support the notion that its effects in humans are not all that harmful. Ingestion of simple sugars in the high carbohydrate diet has negative effects both on carbohydrate and lipid metabolism.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The good, the bad, and the ugly in diabetic diets. 131 32

Insulin resistance contributes to the pathogenesis of NIDDM. We have investigated the molecular mechanisms of insulin resistance in patients with genetic syndromes caused by mutations in the insulin-receptor gene. In general, patients with two mutant alleles of the insulin-receptor gene are more severely insulin-resistant than are patients who are heterozygous for a single mutant allele. These mutations can be put into five classes, depending upon the mechanisms by which they impair receptor function. Some mutations lead to a decrease in the number of insulin receptors on the cell surface. For example, some mutations decrease the level of insulin receptor mRNA or impair receptor biosynthesis by introducing a premature chain termination codon (class 1). Class 2 mutations impair the transport of receptors through the endoplasmic reticulum and Golgi apparatus to the plasma membrane. Mutations that accelerate the rate of receptor degradation (class 5) also decrease the number of receptors on the cell surface. Other mutations cause insulin resistance by impairing receptor function--either by decreasing the affinity to bind insulin (class 3) or by impairing receptor tyrosine kinase activity (class 4). The prevalence of mutations in the insulin receptor gene is not known. However, theoretical calculations suggest that approximately 0.1-1% of the general population are heterozygous for a mutation in the insulin-receptor gene; the prevalence is likely to be higher among people with NIDDM. Accordingly, it is likely that mutations in the insulin-receptor gene may be a contributory cause of insulin resistance in a subpopulation with NIDDM.
Diabetes 1992 Nov
PMID:Lilly Lecture: molecular mechanisms of insulin resistance. Lessons from patients with mutations in the insulin-receptor gene. 132 27

Diabetes mellitus (DM) is frequently associated with hypertension for which an independent pathomechanism has been suggested. We studied 26 patients with insulin-dependent (IDDM) and 18 patients with non-insulin-dependent (NIDDM) uncomplicated DM; all patients were in metabolic balance and none of them had hypertension. Exchangeable body sodium (NaE was estimated by isotope dilution, using appr. 1.1 Mbq 24NA. In a subset of 8 IDDM and 8 NIDDM patients atrial natriuretic peptide (ANP) plasma concentration was determined prior to and after the infusion of 2000 ml physiological saline over 2 hr. NaE was significantly increased both in IDDM and NIDDM patients (104.4 +/- 11.4% and 109.9 +/- 8.0% of the normal value for healthy subjects of identical body surface area; p < 0.05 and < 0.001 resp.). Mean blood pressure (MBP) correlated significantly with NaE in both groups (r = 0.364 and r = 0.520; p < 0.05 and < 0.025, resp.) but not in healthy control subjects (r = 0.112; N.S.). Resting ANP levels were not significantly different in IDDM (34.9 +/- 11.3 pg/ml), NIDDM (42.6 +/- 11.7 pg/ml) or control subjects (40.9 +/- 17.2 pg/ml) however the infusion of saline resulted in a significantly greater increase of plasma ANP in the NIDDM patients (to 82.9 +/- 43.2 pg/ml; P < 0.01) than in the controls (55.6 +/- 23.7 pg/ml; P < 0.01) which was associated with a significantly less increase in sodium excretion (UNAV) in the NIDDM patients (+86% vs. 3170%; P < 0.02) indicating down-regulation of ANP receptors in the kidney of NIDDM patients.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Body sodium, atrial natriuretic peptide and blood pressure in diabetes mellitus. 134 Jun 60

Lipoprotein(a) [Lp(a)] has been added to the list of independent risk factors for cardiovascular disease (CVD), whose incidence is greater in obese subjects. There are few data available on the serum Lp(a) concentrations in obese individuals with or without insulin dependent diabetes mellitus (NIDDM). We selected 31 obese men with normal glucose tolerance (NGT) tests, 15 obese diabetic men, 14 non obese diabetic men and 17 healthy men as controls. We measured serum total cholesterol, HDL cholesterol, triglycerides, glucose, insulin and Lp(a). The mean Lp(a) levels in NGT obese men were 70.00 +/- 13.40 mg/l, which were similar to those found in normal controls (75.98 +/- 24.70 mg/l); significantly higher mean Lp(a) levels were found in obese diabetic men (168.84 +/- 56.43 mg/l) and in non obese diabetic men (240.85 +/- 63.35 mg/l). No significant correlation between Lp(a) levels and age, body mass index (BMI), total cholesterol, HDL cholesterol, triglycerides, insulin, was found; only a significant positive correlation between Lp(a) levels and glucose could be revealed (P < 0.05). Since higher levels of Lp(a) were found in NIDDM subjects with or without obesity, we conclude that hyperglycemia may influence the levels of serum Lp(a) facilitating its glycosylation in the liver with the consequence of a decline in its catabolic rate.
Diabetes Res 1992
PMID:Serum lipoprotein Lp(a) in obesity. 134 6

78 diabetics and a healthy control group of 100 were evaluated according to their haemorrheological parameters (whole blood viscosity, plasma viscosity, aggregability and rigidity of erythrocytes). Diabetics were divided according to type of diabetes, quality of metabolic control and expression of microangiopathy. Hyperviscosity was noted in both groups of diabetics as compared to the control group. Changes in patients with IDDM were more pronounced in erythrocyte rigidity, while in patients with NIDDM they were more expressed in cell aggregability. These changes were present even before the clinical onset of the late complications of diabetes, although they were more expressed in patients with complications. Changes in patients with good metabolic control, were less expressed in comparison to those with poor metabolic control. The conclusion is that metabolic derangements in diabetes have an important influence on haemorrheological properties. Thus, reducing blood viscosity in these patients, may be a promising approach to improving microcirculation and delaying the progression of microangiopathy.
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PMID:[Hemorheologic changes in diabetes mellitus]. 134 47

1. To determine the effects of gene dilution on development of IGT, NIDDM and in vitro glucose oxidation, heterozygous lean LA/N-cp female and SHR/N-cp male rats were mated, and F1 offspring studied at periodic intervals to determine the prevalence of obese and diabetic traits. 2. Obesity occurred in 25% of offspring by 5 weeks of age, consistent with inheritance of the autosomal recessive cp trait. 3. IGT occurred in all obese male F1, 67% of obese female F1, and 18% of the lean male F1 rats by 5 months of age, and diabetes occurred in 80% of male obese and 17% of female obese rats from 6 months of age. Glycosuria occurred with glucose intolerance, and was more severe in rats with NIDDM than IGT. 4. Rates of in vitro glucose oxidation were greater in diaphragm and adipose tissue, and were greater in the presence of insulin (100 mu Units/ml) in obese female but not obese male F1 rats. 5. These results indicate that the development of glucose intolerance is more prominent in male than in female F1 rats, that the progression of IGT to NIDDM occurs later in life in the F1 hybrid than in the SHR/N-cp strain from which the diabetic trait was transmitted, and that genetic dilution of the diabetic trait via hybrid breeding results in a delay in the expression of NIDDM which is chronologically more similar to that which occurs in man.
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PMID:Effect of genetic dilution on development of diabetes, impaired glucose tolerance and in vitro glucose oxidation in LA/N-cp x SHR/N-cp F1 hybrid rats. 134 69

Familial NIDDM probably results from combined inherited defects of insulin secretion and action. Members of the facilitative glucose transporter family are strong candidates for both defects, and RFLPs for both GLUT1 (erythrocyte) and GLUT2 (liver/islet) genes have been associated with NIDDM in some populations. To test the hypothesis that GLUT1 and GLUT2 mutations contribute to the inherited predisposition to NIDDM, we examined linkage of these loci with NIDDM in 18 large Utah white pedigrees (two and three generation) ascertained for > or = 2 NIDDM siblings. We used two RFLPs detected with Xba1 and Stu1 for the GLUT1 transporter. For the GLUT2 (liver/beta-cell) transporter gene, we used an RFLP detected with EcoR1 and a highly polymorphic (6-allele) dinucleotide (microsatellite) repeat. Analysis was performed with the MLINK program of the LINKAGE package. We tested four models for each locus: dominant and recessive, with IGT alternately considered as unknown affection status, or affected if IGT was diagnosed < or = 45 yr of age and unknown if > 45 yr. Disease gene frequencies were chosen to give approximate disease prevalence in American whites (q = 0.03, dominant; q = 0.25, recessive). Linkage of GLUT1 and NIDDM was strongly and significantly rejected under all models, with total (pooled) LOD scores of -5.7 to -8.9, indicating > 500,000:1 odds against linkage. Pooled LOD scores were significantly negative (< -2.0, or 100:1 odds against linkage) to a recombination fraction of > 5%. No heterogeneity was apparent. Analysis of GLUT2 gave similar results, with LOD scores of < -4.0 under each model, indicating at least 10,000:1 odds against linkage.(ABSTRACT TRUNCATED AT 250 WORDS)
Diabetes 1992 Dec
PMID:Linkage analysis of GLUT1 (HepG2) and GLUT2 (liver/islet) genes in familial NIDDM. 135 87

It is clearly recognized that patients with NIDDM have an increased risk for CHD. Recent data indicate that persons with glucose concentrations in the nondiabetic range also may be at higher risk for CHD. These associations may not represent cause and effect, however. Emerging data suggest that hyperglycemia and CHD may both arise from hyperinsulinemia/insulin resistance. In support of this hypothesis are studies showing that NIDDM and CHD have many risk factors in common, including age, elevated blood pressure, dyslipidemia, adiposity, and a central pattern of fat distribution. Moreover, these risk factors are frequent concomitants of hyperinsulinemia, itself a risk factor for CHD and perhaps for NIDDM. Although the duration of NIDDM has been infrequently related to risk of CHD, the authors hypothesize that duration of hyperinsulinemia/insulin resistance would be a more sensitive marker for risk of CHD. The relation of IDDM to CHD is a different situation. The etiological process leading to IDDM, namely the destruction of beta-cells in genetically predisposed persons, is not related to cardiovascular risk. However, IDDM patients still have an excess of CVD, the risk factors for which may vary according to the location of the diseases (e.g., LEAD vs. CHD). There is a strong relationship between proteinuria and CVD, which has led to a general theory of vascular complications in IDDM based on defective heparan sulfate metabolism (Steno hypothesis). Recent evidence challenges parts of this hypothesis, and the possibility is raised that a higher case-fatality rate in a subgroup of patients with both renal and CVD explains part of the renal connection, as does the general worsening of CVD risk factors.
Diabetes Care 1992 Sep
PMID:Diabetes mellitus and macrovascular complications. An epidemiological perspective. 139 12


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