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Query: UMLS:C0011854 (type 1 diabetes)
 20,749 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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.
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PMID:Diabetes mellitus and macrovascular complications. An epidemiological perspective. 139 12

Diabetes mellitus has become the leading cause of ESRF in the United States. Patients with diabetic nephropathy suffer high cardiovascular morbidity and mortality. Because only 40% of diabetic patients eventually develop diabetic kidney disease, it may be possible to devise primary prevention measures targeted at the subset of patients at risk. Recently, a predisposition to hypertension, a family history of diabetic nephropathy, and a family history of CVD disease each have been associated independently with the development of diabetic renal complication in IDDM. Risk factors for macrovascular damage, including raised arterial BP, dyslipidemia, and insulin resistance, can be detected early in the course of progression to diabetic nephropathy. These risk indicators recently have been shown to be already present at the stage of normoalbuminuria in those patients who eventually will progress to microalbuminuria. Treatment of established renal disease can only delay the onset of ESRF, and lowering of microalbuminuria has been shown to retard the onset of persistent proteinuria. However, no study to date has demonstrated prevention of renal disease in these patients. The ultimate aim should, therefore, be the prevention of the transition from normoalbuminuria to microalbuminuria in individuals who are at higher risk of diabetic renal disease and CVD.
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PMID:Diabetic nephropathy. Future avenue. 139 18

Atherosclerotic manifestations are more common and precocious in diabetics than in the general population. Due to the increased cardiovascular risk, a primary or secondary (to diabetes mellitus) lipoprotein disorder in diabetics has to be carefully considered. 27 diabetics (15 NIDDM and 12 IDDM) with dyslipidemia (14 type IV, 8 type IIa and 5 type IIb) were divided in 3 groups and treated with 3 different hypolipemic drugs (Group A: pantethine 600 mg/day; Group B: acipimox 500 mg/day; Group C: bezafibrate 600 mg/day) to test their efficacy and acceptancy. Body weight, Hb A1-c, serum lipoproteins have been measured before and during the 6 months treatment. A significant variation of lipidemic pattern was observed in Group C: a decrease of cholesterol (-20%), triglycerides (-40%), LDL (-24.4%) and apo B (-26.8%) with an increase of HDL (+23.6%). Pantethine and acipimox were more effective on triglycerides (-37.7% and -23.3% respectively). Cardiovascular risk (CT tot/CT HDL) was significantly reduced with acipimox and normalized with bezafibrate.
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PMID:[Comparison of the efficacy of pantethine, acipimox, and bezafibrate on plasma lipids and index of cardiovascular risk in diabetics with dyslipidemia]. 174 76

Hyperinsulinaemia links non-insulin dependent diabetes (NIDDM), obesity, and hypertension, each an insulin-resistant state in its own right. Insulin resistance predicts the occurrence of NIDDM, and plays a major role in its pathogenesis. We tested the hypothesis that hyperinsulinaemia may also predict hypertension in a sample (n = 2905) of the mixed population of San Antonio, in which hyperinsulinaemia and NIDDM are more prevalent among Mexican-Americans than non-Hispanic whites. Whilst in the whole sample the hypertensives had significantly (P less than 0.001) higher plasma insulin concentrations than the normotensives, high blood pressure was significantly (P less than 0.01) more frequent among non-Hispanic whites than Mexican-Americans regardless of diabetes status. After adjusting for factors (age, sex, body mass, and body fat distribution) known to affect insulin levels, a direct relationship between post-glucose plasma insulin concentrations and prevalence of hypertension was still present in both ethnic groups. In Mexican-Americans, however, the standardized prevalence of hypertension was significantly (P less than 0.001) lower at any given insulin concentration. Post-glucose plasma glucose levels also were directly related to hypertension prevalence in both groups; again, the regression line was shifted downward and, furthermore, less steep (P less than 0.02) in Mexican-Americans, suggesting relative protection against the negative effect of hyperglycaemia on blood pressure. Dyslipidaemia (higher total cholesterol and triglyceride, and lower HDL-cholesterol concentrations) was strongly associated with hyperinsulinaemia and blood pressure in both ethnic groups. After adjusting for plasma insulin, only hypertriglyceridaemia was associated with high blood pressure, with no inter-ethnic difference.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:High blood pressure and insulin resistance: influence of ethnic background. 190 31

Abnormalities of plasma lipid and lipoprotein concentrations are common in both insulin-dependent (IDDM) and non-insulin-dependent (NIDDM) diabetes mellitus. In general, individuals with IDDM who are untreated or inadequately treated have elevations in both postprandial and fasting triglyceride levels in association with reduced activity of lipoprotein lipase. Low-density lipoprotein (LDL) cholesterol levels can rise when insulin deficiency impacts on LDL-receptor function. When patients with IDDM are treated and plasma glucose levels well controlled, plasma very-low-density lipoprotein (VLDL) triglyceride and LDL cholesterol levels are usually normal. In addition, plasma high-density lipoprotein (HDL) cholesterol levels are normal or elevated in well-controlled IDDM subjects. In NIDDM, increased VLDL triglyceride and reduced HDL cholesterol concentrations are common and are only partially related to glycemic control. Overproduction of VLDL leads to hypertriglyceridemia, which can be exacerbated if lipoprotein lipase activity is also reduced. The regulation of LDL levels is complex; catabolism can be reduced if significant insulin deficiency exists or increased if significant hypertriglyceridemia is present. The reduced levels of HDL cholesterol in NIDDM appear to be related to increased exchange of HDL cholesteryl esters for VLDL triglycerides, although other mechanisms may exist. The roles of insulin resistance, obesity, and independently inherited abnormalities of lipoprotein metabolism in the etiology of dyslipidemia of NIDDM are complex and require further investigation. Finally, the effects of diabetes on glycosylation of apoproteins; on other lipid enzymes, particularly hepatic triglyceride lipase; on lipoprotein surface lipids; and on hepatic uptake of remnants have only just begun to be defined. In view of the marked increase in atherosclerotic cardiovascular disease in individuals with diabetes mellitus, prompt attention to and aggressive therapy for dyslipidemia should be a central component of care for these patients.
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PMID:Lipoprotein physiology in nondiabetic and diabetic states. Relationship to atherogenesis. 195 76

Despite recent progress in therapy and management of diabetes mellitus, diabetes remains a serious disease with life-threatening complications. It is by far the most common metabolic disease and affects 5% of the population in industrialized countries. Noninsulin-dependent diabetes mellitus (NIDDM) is a complex disorder characterized by insulin resistance and impaired insulin secretion and is associated with an increased risk of coronary heart disease, peripheral vascular disease, arterial hypertension and dyslipidemia. Predisposing factors for NIDDM are obesity and a family history of diabetes. Greater physical activity has been associated inversely with the prevalence of NIDDM in several cross-sectional studies. Physical activity increases the sensitivity to insulin, and regular endurance exercise can induce and maintain weight loss, improve glucose tolerance and ameliorate most of the abnormalities in the metabolic syndrome. Type I diabetes mellitus arises as a consequence of immunologically mediated pancreatic islet beta-cell destruction in genetically susceptible individuals. It is an insidious process that may occur over years. During the stage of disease evolution (prediabetes), individuals may be identified by the presence of immunological markers and a decline of beta-cell function. The autoimmune nature of the disease process has led to attempts to stop this process by immune intervention strategies. A variety of immune interventions has been used, some immunosuppressive and some immunomodulatory. Several screening programs are used in order to identify high-risk subjects (i.e. first-degree relatives of individuals with type I diabetes) who may benefit from an early intervention. The ultimate goal of all these efforts is to prevent the development of overt type I diabetes mellitus in those at risk for the disease, using strategies that are both safe and specific. This review summarizes the results of the various studies conducted to date and outlines the approaches currently being tested.
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PMID:[Is prevention of diabetes mellitus possible?]. 783 27

The microvascular complications of retinopathy, nephropathy, and neuropathy are less prevalent, and not as severe, in NIDDM as compared with IDDM for unknown reasons. Macrovascular disease is the greatest challenge in the management of NIDDM because it is the cause of death in 50% to 60% of this patient population. Control of the hyperglycemia is the most important because the prevention of complications is more effective than the treatment of them. Blood glucose control through diet, exercise, and medication is the key to reducing the previously identified complications. Lifestyle modifications of diet and exercise are the most effective treatment to reduce hyperglycemia. It is important to emphasize during the asymptomatic period the serious consequences of the complications and to set goals using the glycosylated hemoglobin. If these goals are not met, treatment should be intensified by more frequent visits or referral for the team approach. The time for intervention is before the complications are present, not after they occur. It is certainly reasonable to reduce as many risk factors as possible that adversely affect the complications of NIDDM. Hypertension can affect the course of coronary artery disease, retinopathy, nephropathy, and neuropathy and should be treated. The avoidance of tobacco is a must for the prevention of vascular disease and is associated with painful neuropathy. Dyslipidemia is seen frequently in NIDDM and should be assessed by fasting lipid panel and treated to lower the LDL cholesterol below 130 mg/dL. Reduction of individual risk factors is the most effective approach to this complex clinical syndrome until such time as a better understanding of the pathophysiology provides a more specific and effective intervention.
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PMID:Noninsulin-dependent diabetes mellitus. The prevention of complications. 787 91

Diabetic patients have a 2 to 4 times higher risk of development of atherosclerosis than non-diabetic subjects. One of the risk factors of atherosclerosis is an impaired lipid and lipoprotein metabolism which is influenced by the type of diabetes, the degree of its metabolic compensation, character of treatment and other concurrently present metabolic abnormalities. In metabolically balanced type 1 diabetes the levels of commonly assessed lipoproteins do not differ from those in non-diabetic subjects, the HDL-cholesterol level can be even higher. The lipid profile of type 2 diabetics is not very homogeneous, however, usually elevated levels of VLDL-triglycerides and of apoprotein B and a reduced HDL-cholesterol level are found. At present there are no unequivocal views on the role of the lipoprotein (a) ratio in the increased risk of atherosclerosis in diabetics as investigations devoted to the lipoprotein (a) level and its relation to macrovascular complications in diabetes did not give unequivocal results. The scope of dyslipidemia in diabetics with nephropathy is in addition to the effect of the basic disease influenced also by the extent of renal damage. The lipid disorder, on the other hand, leads to deterioration of albuminuria and progression of the renal disease.
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PMID:[Changes in lipoprotein metabolism in patients with diabetes mellitus and the effect on lipid profile in diabetics]. 818 88

The concept of microalbuminuria is reviewed. Measuring the urinary albumin excretion rate and testing for microalbuminuria is well established in the control and treatment of patients with insulin-dependent diabetes mellitus. Microalbuminuria predicts nephropathy and early cardiovascular death. In the presence of microalbuminuria, frequent examinations are warranted for early detection of retinopathy, hypertension and for optimizing the glycaemic control. In patients with non-insulin dependent diabetes, the independent value of microalbuminuria as a cardiovascular risk factor is not yet clarified. The urinary albumin excretion rate should be measured at diagnosis, because the indications are that presence of microalbuminuria reinforces the urge to intervene against other well-documented cardiovascular risk-factors (hypertension, dyslipidemia, tobacco and obesity). In the non-diabetic population there is accumulating evidence that an elevated urinary albumin excretion rate is associated with early cardiovascular morbidity and mortality. Large scale cross-sectional and prospective studies are needed in order to further clarify the role of microalbuminuria as an independent risk factor in the background population.
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PMID:[Microalbuminuria--a valuable diagnostic parameter]. 827 36

Hyperinsulinemia is very much in the spotlight. Debate rages as to its significance and role in the etiology not only of NIDDM, but also other morphological and metabolic risk factors for atherosclerotic cardiovascular disease, including upper-body obesity, dyslipidemia, hypertension, and hyperuricemia. Epidemiological data support a key role for hyperinsulinemia in these disorders but it is far from conclusive except for the fact that hyperinsulinemia and insulin resistance may be present many years before the onset of impaired glucose tolerance and NIDDM, and clearly play a role in their etiology. The thrifty genotype hypothesis provides a plausible basis for a better understanding of how hyperinsulinemia and insulin resistance could lead to glucose intolerance and atherosclerotic cardiovascular disease, but the detailed biochemical mechanisms remain elusive. A role for increased sympathetic nervous system activity, resulting from hypothalamic stimulation as a primary event causing hyperinsulinemia, cannot be excluded as a cause of hyperinsulinemia. The current focus on hyperinsulinemia also has resulted in closer examination of the therapy of diabetes and hypertension, emphasizing the need to avoid hyperinsulinemia in both IDDM and NIDDM individuals because of the putative risk of atherosclerotic cardiovascular disease and hypertension. There is still a paucity of epidemiological data to support a role for hyperinsulinemia in the etiology of hypertension. However, clinical practice already is being influenced by the fact that ACE inhibitors have been shown to reduce insulin resistance in clinical research studies. The research reviewed here, particularly that relating to hyperinsulinemia, insulin resistance, and cardiovascular disease risk factors, has opened new vistas for the treatment and prevention of NIDDM and atherosclerotic cardiovascular disease. Appropriate exercise clearly is associated with improved insulin sensitivity, modification of CVD risk factors, and lower prevalence of NIDDM. Upper-body obesity, the latest culprit in the field, can also be reduced by exercise. Hyperinsulinemia and insulin resistance can be detected in children, adolescents, and young adults. NIDDM can be prevented, but clearly, intervention needs to commence in childhood, and intensive risk factor intervention in subjects with NIDDM can reduce the risk of atherosclerotic cardiovascular disease. It seems paradoxical that prevention of NIDDM and atherosclerotic cardiovascular disease are now possible even though the biochemical and molecular basis of these disorders is not fully understood.
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PMID:Hyperinsulinemia--how innocent a bystander? 829 79


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