Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

---

Query: UMLS:C0011860 (type 2 diabetes)
57,723 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In 97 IDDM and 64 NIDDM patients aged under 65 years, we evaluated the relationship between autonomic neuropathy (AN) and retinopathy, nephropathy, glycemic control and cardiovascular risk factors. Diabetes duration and HbA1 were significantly higher and body mass index was significantly lower in IDDM patients with AN compared to those without. In NIDDM only age was significantly higher in neuropathic patients. AN was associated with retinopathy in both IDDM (chi2 = 10, P < 0.03) and NIDDM patients (chi2 = 14, P < 0.007), while only in IDDM albumin excretion was significantly higher in patients with AN. Blood pressure (BP) was significantly higher in both IDDM and NIDDM patients with AN compared to those without. There were no differences in smoking and serum lipids between patients with and those without AN. We performed a multiple regression analysis using autonomic score, index of cardiovascular tests impairment, as the dependent variable and age, diabetes duration, body mass index, HbA1, albumin excretion, cholesterolemia, triglyceridemia, systolic BP, and retinopathy as independent variables. With this model in IDDM autonomic score was only related to body mass index (r = -0.29, P < 0.05), to HbA1 (r = 0.46, P < 0.001), and to systolic BP (r = 0.24, P < 0.05), while in NIDDM it was only related to systolic BP (r = 0.54, P < 0.001). In conclusion, AN was related to age in NIDDM, and to diabetes duration and glycemic control in IDDM. AN was associated with retinopathy, with nephropathy (only in IDDM), and with BP levels, but not with dyslipidemia, smoking, or obesity. Excess mortality rate observed in diabetic AN cannot be referred to an association with cardiovascular risk factors.
...
PMID:Autonomic neuropathy and cardiovascular risk factors in insulin-dependent and non insulin-dependent diabetes. 906 69

Non-insulin-dependent diabetes mellitus (NIDDM) is associated with approximately two fold increase in coronary heart disease (CHD) in men and fourfold increase in CHD in women. In most studies, the duration of diabetes and severity of glycemia are only weakly related to CHD in NIDDM, suggesting that the prediabetic period may be important for the increased CHD in NIDDM subjects. Both hyperinsulinemia and/or insulin resistance predict the development of NIDDM. A number of studies have shown that increased cardiovascular risk factors (especially high triglyceride, blood pressure, and small dense low-density lipoprotein (LDL) and low high-density liproprotein (HDL) cholesterol) precede the onset of NIDDM. Recent data from the San Antonio Heart Study suggest that the atherogenic pattern of cardiovascular risk factors is more marked in prediabetic women than in prediabetic men, thus partially explaining the higher risk of CHD in prediabetic women than in prediabetic men. The atherogenic changes in cardiovascular risk factors appear to be mainly due to increased hyperinsulinemia and insulin resistance in nondiabetic subjects. Interventions to reduce cardiovascular disease in NIDDM subjects should emphasize the primary prevention of NIDDM and very aggressive treatment of traditional cardiovascular risk factors in prediabetic subjects. Treatment of hypertension and dyslipidemia in high-risk patients for NIDDM should avoid agents that further worsen insulin resistance (nicotinic acid, beta blockers, and thiazides), as subjects with hypertension and dyslipidemia are already at increased risk of NIDDM.
...
PMID:The prediabetic problem: development of non-insulin-dependent diabetes mellitus and related abnormalities. 910 90

The major risk factors appear to explain only a small proportion of the excess risk of coronary heart disease in patients with Non-Insulin-Dependent Diabetes Mellitus (NIDDM). Among novel risk markers that have been-proposed to explain the susceptibility of NIDDM subjects to coronary heart disease are insulin resistance, elevated concentrations of proinsulin-line molecules, plasminogen activator inhibitor, and microalbuminuria. Several prospective studies have shown that hyperinsulinemia predicts coronary heart disease, perhaps independently of established risk factors. Some of this excess risk may be through the dyslipidemia, or the elevation in activity of plasminogen activator inhibitor, an inhibitor of fibrinolysis, which relate to hyperinsulinemia. However proinsulin-like molecules show similar relationships with both risk factors and with prevalent coronary heart disease as does insulin, despite low concentrations of these molecules in the circulation, suggesting a causative relationship is improbable. Furthermore, the link between insulin resistance and microalbuminuria, a powerful predictor of vascular disease in its own right, is poorly understood through known mechanisms. This clustering leads to the possibility of a link with coronary heart disease through other mechanisms. It is proposed that the pathogenesis of this link is endothelial dysfunction, which may predicate both impaired insulin action, through effects of blood flow and insulin transport, and the associated dyslipidemia, impaired fibrinolysis, microalbuminuria, and atherogenesis. In terms of etiology, the links of all these risk factors with evidence of growth retardation in early life may suggest a role of the thirfty phenotype hypothesis-impaired organogenesis resulting from poor maternal nutrition during pregnancy.
...
PMID:The Deidesheimer meeting: significance of classical and new risk factors in non-insulin-dependent diabetes mellitus. 910 95

Hyperlipidemia, hypertriglyceridemia in particular, is a common feature in patients with noninsulin dependent diabetes mellitus (NIDDM) and may associate with insulin insensitivity. Acipimox, being widely prescribed for treating hypertriglyceridemia, is also used in NIDDM patients for their dyslipidemia. In the present study, we evaluated the effect of acipimox in Chinese NIDDM patients with hypertriglyceridemia. A total of 16 patients enrolled in a double-blind, randomized, placebo-controlled and two-period crossover study. After an 8 week run-in period, patients were randomly assigned into two groups receiving either acipimox (250 mg, twice daily) or placebo treatment. A total of 12 weeks later, these two groups switched their treatment for an additional 12 weeks. Blood samples were collected at the end of the run-in period and then at 4-week intervals in the whole study for lipid profile. A modified insulin suppression test was performed at the ends of the run-in period, 12-week and 24-week treatment to assess changes in insulin sensitivity. Our results showed that acipimox significantly lowered serum total triglyceride while compared to those by placebo. However, no difference was observed in serum non-esterified fatty acid, low-density lipoprotein cholesterol, total cholesterol (TC), high density lipoprotein-cholesterol (HDL-C) and HDL-C/ TC ratio between the two groups. Furthermore, glycemic indices and insulin sensitivity were similar during the base-line, placebo or acipimox periods. Taken together, our data suggest that acipimox significantly lowered TG without perturbation of insulin sensitivity in hypertriglyceridemic NIDDM patients.
...
PMID:Acipimox attenuates hypertriglyceridemia in dyslipidemic noninsulin dependent diabetes mellitus patients without perturbation of insulin sensitivity and glycemic control. 922 95

Patients with NIDDM are at increased risk for coronary heart disease (CHD). However, information on the predictive value of cardiovascular risk factors and the degree of hyperglycemia with respect to the risk for CHD in diabetic patients is still limited. Therefore, we carried out a prospective study on risk factors for CHD, including a large number of NIDDM patients. At baseline, risk factor levels of CHD were determined in 1,059 NIDDM patients (581 men and 478 women), aged from 45 to 64 years. These patients were followed up to 7 years with respect to CHD events. Altogether, 158 NIDDM patients (97 men [16.7%] and 61 women [12.8%]) died of CHD and 256 NIDDM patients (156 men [26.8%] and 100 women [20.9%]) had a serious CHD event (death from CHD or nonfatal myocardial infarction). A previous history of myocardial infarction, low HDL cholesterol level (<1.0 mmol/l), high non-HDL cholesterol (> or =5.2 mmol/l), high total triglyceride level (>2.3 mmol/l), and high fasting plasma glucose (>13.4 mmol/l) were associated with a twofold increase in the risk of CHD mortality or morbidity, independently of other cardiovascular risk factors. High calculated LDL cholesterol level (> or =4.1 mmol/l) was significantly associated with all CHD events. The simultaneous presence of high fasting glucose (>13.4 mmol/l) with low HDL cholesterol, low HDL-to-total cholesterol ratio, or high total triglycerides further increased the risk for CHD events up to threefold. Our 7-year follow-up study provides evidence that dyslipidemia and poor glycemic control predict CHD mortality and morbidity in patients with NIDDM.
...
PMID:Dyslipidemia and hyperglycemia predict coronary heart disease events in middle-aged patients with NIDDM. 923 62

Diabetes, known since antiquity, has been defined by glycosuria. In 1886, when Minkowski demonstrated that pancreatectomized dogs developed diabetes, the islets of Langerhans became a focus of the search for an active principle culminating in the discovery and the isolation of insulin in 1921 by Banting, Best and Collip. In 1959, the radioimmunoassay of Yalow and Berson solidified the concept of insulin resistance in non-insulin dependent diabetes (NIDDM). In 1971, the insulin receptor was defined as a cell surface protein that initiated the insulin signal transduction cascade. Today, we know that NIDDM accounts for at least 90% of all diabetes worldwide and involves approximately 100 million people. The microvascular complications of NIDDM are the same as for insulin dependent diabetes (IDDM) and are related to the intensity and duration of hyperglycaemia. Further, it is clear from the Diabetes Control and Complications Trial (DCCT) that all microvascular complications can be reduced with intensive control of the blood glucose. Macrovascular disease is also accelerated in NIDDM, including both hypertension and dyslipidemia. The major risk factor for NIDDM are age, obesity, physical inactivity, and genetic background. The earliest features seen in individuals destined to develop NIDDM is insulin resistance, but for hyperglycaemia to ensure there must be a defect in insulin secretion. Thus, insulin resistance defines the prehyperglycaemic phase of NIDDM, but varying degrees of insulin secretory deficiency define the hyperglycaemic phase. Macrovascular risk occurs throughout the lifetime of the individual, whereas microvascular risk ensues with the inception of hyperglycaemia. Tomorrow, we will understand more clearly whether lifestyle changes, such as diet and exercise, or new classes of drugs, can delay or prevent NIDDM. Clinical trials are now beginning to test whether impaired glucose tolerance (IGT) can be delayed or prevented from moving to overt NIDDM. The genetics of NIDDM are under intense study. Mutations in the insulin receptor lead to NIDDM in a small number of patients, and mutations in the glucokinase gene lead to maturity onset diabetes of the young (MODY). Work is now underway to study other candidate genes as well as work on positional cloning techniques to identify diabetes genetic loci. The hormone Leptin has just been discovered and is a major regulator of body weight. In summary, the most important new emphasis on the treatment of NIDDM is the recognition of the importance of hyperglycaemia and our ability to both treat and possibly prevent this metabolic perturbation. This joins the longer-term emphasis on cardiovascular risk reduction from both treatment and prevention of hypertension and dyslipidemia.
...
PMID:Non-insulin dependent diabetes--the past, present and future. 928 27

Insulin resistance has been proposed as the metabolic basis of atherogenesis. This hypothesis is based on the concept of the "insulin resistance syndrome," according to which insulin resistance is viewed as the primary abnormality that gives rise to dyslipidemia, essential hypertension, impaired glucose tolerance, and NIDDM. However, this hypothesis takes no account of the well-established and central role of vascular endothelium in the atherogenic process. Although endothelial injury is an early and prominent feature of atherogenesis, relatively little attention has been given to its metabolic consequences. In subjects with NIDDM, we have shown that endothelial dysfunction is associated with insulin resistance, raising the question of whether this relationship could be causal. In this article, we review the factors that are considered to be responsible for the development of endothelial dysfunction during atherogenesis, together with the metabolic consequences of endothelial dysfunction. While dysfunction of the endothelium in large and medium-sized arteries plays a central role in atherogenesis, we argue that dysfunction of peripheral vascular endothelium, at arteriolar and capillary level, plays the primary role in the pathogenesis of both insulin resistance and the associated features of the insulin resistance syndrome. We propose that the insulin resistance syndrome, together with many aspects of atherogenesis, can be viewed as the diverse consequences of endothelial dysfunction in different vascular beds. This new and testable hypothesis accounts for both the endothelial and metabolic abnormalities associated with atherogenesis.
...
PMID:Endothelial dysfunction: cause of the insulin resistance syndrome. 928 92

Authors summarise their 5-year long experiences on 343 patients about diagnostic methods of metabolic syndrome X and offer a simple possibility for screening of the jeopardized individuals. In a group of patients with hypertension and central obesity (group I: with 2 insulin resistant condition), 229 (89%) out of 255 cases met the basic criteria of the syndrome X which were hypertension, central obesity and high insulin levels for the corresponding blood sugar levels during oral glucose tolerance test (probable insulin resistance). Dyslipidemia was missing in 20% of these people. Hyperinsulinism occurred in 85%, glucose intolerance in 53%, presumable insulin resistance in 90% of cases. Insulin resistance was characterised by late hyperinsulinism (90 and 120 min.) during oral glucose tolerance test. This was the case in people with "diabetoid" glucose responses too, suggesting an early failure of glucose tolerance and/or insulin secretion. Components of syndrome X were present with a lower frequency in 24 patients with obesity (group II), in 35 patients with hypertension (group III) and in 29 patients without obesity or hypertension (group IV), as well. According to central obesity and hypertension, syndrome X could be screened by a probability of 90%. This can be helpful in prevention of NIDDM and coronary heart disease.
...
PMID:[The value of certain parameters in the diagnosis and detection of metabolic X syndrome]. 938 Mar 79

Body fat distribution is now recognized as an important predictor of the adverse health consequences of obesity. Upper body obesity, especially with increasing visceral fat, is associated with hypertension, insulin resistance, dyslipidemia, type II diabetes mellitus and premature coronary death. Several lines of evidence suggest that abnormal adipose tissue lipolysis, resulting in elevated free fatty acid (FFA) availability, may contribute to some of the metabolic consequences of upper body obesity. The vast majority of the elevated systemic FFA release appears to come from upper body, non-splanchnic adipose tissue. Thus, dysregulation of upper body, non-splanchnic adipose tissue lipolysis may play an important role in contributing to health consequences of fat distribution.
...
PMID:Health consequences of fat distribution. 943 51

Insulin resistance is characterized principally by impaired insulin-mediated glucose uptake which provokes a compensatory increase in pancreatic beta-cell secretory activity. For a time this may produce well-controlled plasma glucose levels but as the insulin resistance worsens the augmented insulin production becomes inadequate to keep plasma glucose at euglycemia leading to the development of non-insulin dependent diabetes mellitus (NIDDM), accompanied by hyperinsulinemia and hyperglycemia. A number of metabolic defects are associated with NIDDM including obesity, hypercoagulability, cardiovascular disease risk factors such as hypertension and dyslipidemia and these constitute the insulin resistance syndrome. The identity of the biochemical factor that might link all these defects is not yet known. We have hypothesized that platelet-activating factor (1-O-alkyl-2-acetyl-sn-glycero-3-phosphocholine, PAF) may be such a link. In this study, we measured plasma acetylhydrolase (EC.1.1.48), which degrades PAF to the inactive metabolise lyso-PAF, as a surrogate for PAF activity in three groups of hypercholesterolemic subjects: lean controls (n = 9), non-diabetic obese (n = 6) and NIDDM subjects (n = 6). The ages and body mass indices of the subjects were 46 +/- 3.1 and 24.2 +/- 2.2 for the lean controls, 52 +/- 2.5 and 28.7 +/- 0.9 for the NIDDM subjects and 60 +/- 2 and 27.6 +/- 2.1 for the obese, non-diabetic subjects (mean +/- S.E.M.). The measurements were made before and after therapy with the cholesterol-lowering drug lovastatin, a 3-hydroxy 3 methylglutaryl (HMG) coenzyme. A reductase inhibitor (40 mg/day) for 3 months. Fasting plasma glucose (FPG) levels were 91 +/- 11, 96 +/- 3 and 146 +/- 11 mg/dl, for the lean, obese and NIDDM subjects, respectively, before therapy began. Lovastatin did not affect FPG in any of the three subject groups. Before treatment, the fasting plasma insulin (FPI) levels were 6.1 +/- 0.92, 10.83 +/- 2.03 and 14.68 +/- 3.64 mU/l for the lean, non-diabetic obese and NIDDM subjects, respectively. After lovastatin therapy only the obese group exhibited a significant change in FPI (15.35 +/- 2.47 mU/l) (P < 0.05). Total cholesterol levels were similar in all three groups both before and after lovastatin therapy but within each group lovastatin therapy significantly reduced the total cholesterol by 32, 29 and 34% in the lean, obese and NIDDM subject groups respectively (P < 0.0001). Lovastatin therapy reduced LDL-cholesterol levels by 40, 32 and 46% in the lean, obese and NIDDM subjects, respectively, but produced no significant effect on HDL or triglyceride levels. Before therapy, the plasma acetylyhydrolase activities were 104 +/- 7, 164 +/- 7 and 179 +/- 7 nmol/ml per min in the lean, obese and NIDDM subjects, respectively. Lovastatin therapy reduced plasma acetylhydrolase levels to 70 +/- 7, 87 +/- 6 and 86 +/- 7 nmol/ml per min in the lean, obese and NIDDM subjects, respectively. Plasma acetylhydrolase activity was predominantly (> 80%) associated with LDL cholesterol both before and after lovastatin treatment. Also, plasma acetylhydrolase activity significantly correlated with fasting plasma insulin levels before lovastatin therapy but not after. Taken together, this study clearly implicates PAF metabolism in three defects associated with the insulin resistance syndrome: hypercholesterolemia, obesity and NIDDM. Additionally, we conclude that chronic hyperinsulinemia may play a significant role in the production of plasma acetylhydrolase.
...
PMID:Plasma PAF acetylhydrolase in non-insulin dependent diabetes mellitus and obesity: effect of hyperinsulinemia and lovastatin treatment. 945 36


<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>

---