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Query: UMLS:C0042373 (vascular disease)
 17,070 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

OBJECTIVE--To investigate the relationship between asymptomatic hyperglycemia (IGT or newly diagnosed NIDDM) and atherosclerotic vascular disease. RESEARCH DESIGN AND METHODS--A representative cross-sectional population sample of 1431 subjects (511 men, 920 women; 65-74 yr old). Altogether, 312 men and 515 women had NGT, 84 men and 158 women had IGT, 33 men and 59 women had newly diagnosed NIDDM, and 82 men and 188 women had previously diagnosed NIDDM. Participation rate was 71%. Main outcome measures were prevalence rates of CHD, stroke, and intermittent claudication. RESULTS--There was no difference in the prevalence of definite or possible MI verified at hospital between subjects with asymptomatic hyperglycemia and NGT (15.5 vs. 13.3% in men, 6.3 vs. 5.3% in women). Men with asymptomatic hyperglycemia had 1.5 x higher prevalence of angina pectoris (29.4 vs. 19.3%, P less than 0.05), major Q-QS changes (21.1 vs. 12.0%, P less than 0.05), ischemic ECG changes (59 vs. 45%, P less than 0.05), and silent MI on ECG (14.8 vs. 7.9%, P less than 0.05) compared to men with NGT. Women with asymptomatic hyperglycemia had more often ischemic ECG changes compared to women with NGT (48.3 vs. 39.7%, P less than 0.05). There was no difference (NS) in the prevalence of verified stroke (3.5 vs. 4.6% in men, 2.7 vs. 2.5% in women) or claudication (7.0 vs. 7.7% in men, 4.6 vs. 4.3% in women) between subjects with asymptomatic hyperglycemia and NGT. In multiple logistic regression analyses, the association between risk factors and MI or ischemic ECG changes in subjects with asymptomatic hyperglycemia was not consistent. CONCLUSION--Elderly subjects with asymptomatic hyperglycemia (particularly men) tended to have an increased prevalence of CHD. Thus, asymptomatic hyperglycemia in the elderly is not a benign phenomenon but is associated with cardiovascular morbidity.
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PMID:Asymptomatic hyperglycemia and atherosclerotic vascular disease in the elderly. 150 3

The prevalences of risk factors and angiopathy were studied in 260 diabetic patients, 100 females and 160 males, 35-54 years old, in Uppsala. The prevalence, in females and males separately, of hypertension (WHO-criteria) was 46-34%, of hypercholesterolaemia (greater than or equal to 6.7 mmol.l-1) 32-29%, and of obesity (relative BMI greater than or equal to 120%) 25-20%. Those smoking greater than 15 cigarettes/day were 11-20%. Mean HbA1 was 10.6-10.5%. The prevalence of angina pectoris was 11-6%, of possible infarction 4-6%, and of major ECG abnormalities 6-4%. Large vessel (cardiovascular) disease was independently related to HbA1 (strongly), hypertension, cholesterol, age and familial NIDDM. The prevalence of severe retinopathy (blindness, new vessels or large hemorrhage) was 0% with 7-13 years of diabetes duration, and 26% with greater than or equal to 14 years of duration. The prevalence of severe proteinuria was 4% with 7-13 years of diabetes duration, and 15% with greater than or equal to 14 years of duration. Small vessel (retinopathy and nephropathy) disease was independently related to diabetes duration (strongly), HbA1 and hypertension. The data were discussed related to data from the London, Berlin and Tokyo centres of the WHO Multinational Study of Vascular Disease in Diabetics, using the same study protocol in the present study.
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PMID:Prevalences of risk factors and angiopathy in diabetic patients in Uppsala. 152 37

Non-insulin-dependent diabetes (NIDDM) has long been recognized as being associated with a cluster of disorders including obesity, hypertension, dyslipidemia, and atherosclerotic heart disease. It was only recently, however, that Reaven, DeFronzo, and Ferrannini with techniques to quantitate insulin resistance suggested that this represents a common factor in this group of disorders and that hyperinsulinemia resulting from insulin resistance could be the cause of the hypertension, dyslipidemia, and atherosclerosis. The names syndrome X or the insulin-resistance syndrome have been used to identify this pathological entity, and considerable investigations have been done and are in progress to establish whether or not these coexisting disorders represent an as yet unexplained association of cardiovascular risk factors or if, indeed, insulin resistance and hyperinsulinism represent the primary cause for most of the other disorders. To paraphrase a philosophical comment, if syndrome X did not exist, we probably would have had to invent it. In addition to the intellectual satisfaction of being able to "lump" these diverse ills under a single etiology, the main value of grouping these disorders as a syndrome is to continually remind physicians that the therapeutic goals are not only to correct hyperglycemia in NIDDM but also to manage the elevated blood pressure and dyslipidemia that cause cerebrovascular and cardiac morbidity as well as mortality in these patients. Having a syndrome X reduces the fragmentation of medical care among subspecialties and decreases the likelihood of prescribing drugs that correct hypertension but raise lipids or drugs that lower lipids but raise blood glucose. Finally, it encourages the selection of drugs that reduce hyperglycemia without increasing insulin secretion and to the development of new drugs for this purpose. Unfortunately, the concept of insulin resistance with hyperinsulinism being a cause of the other associated disorders is still unproved but continues to be open to experimental investigation. The remainder of this article reviewed the use of sulfonylureas in the management of NIDDM, discussed new molecular and cellular mechanisms by which they promote insulin secretion, and reviewed the controversy as to whether an extrapancreatic action contributes to their glucose-lowering effects in NIDDM. A closing section listed some other oral drugs that can lower blood glucose without stimulating the pancreatic beta cell. Their insulin-sparing hypoglycemic effect makes them potentially useful in NIDDM therapy, particularly if the fundamental premise of syndrome X is substantiated, which implicates hyperinsulinemia as contributing to the morbidity and mortality from atherosclerotic vascular disease.
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PMID:Type II diabetes and syndrome X. Pathogenesis and glycemic management. 161 69

This review summarized aspects of the widening scope, phenotypic expression, natural history, recognition, pathogeneses, and heterogenous nature of maturity-onset diabetes of the young (MODY), an autosomal dominant inherited subtype of NIDDM, which can be recognized at a young age. There are differences in metabolic, hormonal, and vascular abnormalities in different ethnic groups and even among Caucasian pedigrees. In MODY patients with low insulin responses, there is a delayed and decreased insulin and C-peptide secretory response to glucose from childhood or adolescence, even before glucose intolerance appears; it may represent the basic genetic defect. The nondiabetic siblings have had normal insulin responses for decades. The fasting hyperglycemia of some MODY has been treated successfully with sulfonylureas for more than 30 years. In a few, after years or decades of diabetes, the insulin and C-peptide responses to glucose are so low that they may resemble those of early Type I diabetes. The rate of progression of the insulin secretory defect over time does distinguish between these two types of diabetes. In contrast are patients from families who have very high insulin responses to glucose despite glucose intolerance and fasting hyperglycemia similar to those seen in patients with low insulin responses. In many of these patients, there is in vivo and in vitro evidence of insulin resistance. Whatever its mechanism, the compensatory insulin responses to nutrients must be insufficient to maintain normal carbohydrate tolerance. This suggests that diabetes occurs only in those patients who have an additional islet cell defect, i.e., insufficient beta cell reserve and secretory capacity. In a few MODY pedigrees with high insulin responses to glucose and lack of evidence of insulin resistance, an insulin is secreted which is a structurally abnormal, mutant insulin molecule that is biologically ineffective. No associations have been found between specific HLA antigens and MODY in Caucasian, black, and Asian pedigrees. Linkage studies of the insulin gene, the insulin receptor gene, the erythrocyte/Hep G2 glucose transporter locus, and the apolipoprotein B locus have shown no association with MODY. Vascular disease may be as prevalent as in conventional NIDDM. Because of autosomal dominant transmission and penetrance at a young age, MODY is a good model for further investigations of etiologic and pathogenetic factors in NIDDM, including the use of genetic linkage strategies to identify diabetogenic genes.
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PMID:Maturity-onset diabetes of the young (MODY). 268 21

Despite suggestive evidence from studies on experimental pathology and cell biology of the arterial wall and from clinical and epidemiological studies on non-diabetic subjects indicating that hyperinsulinaemia might be associated with an increased risk of atherosclerotic vascular disease (ASVD) information concerning the role of hyperinsulinaemia as a risk factor of ASVD in diabetic patients still is circumstantial. A few cross-sectional and still fewer prospective studies in patients with non-insulin-dependent diabetes (NIDDM), including two ongoing studies carried out by our own research group, have shown associations between hyperinsulinaemia and the occurrence of ASVD, but these data still are far from consistent and conclusive. Further studies applying combined clinical and epidemiological approach, building upon the results of experimental research concerning possible mechanisms, are needed for better clarification of the role of hyperinsulinaemia as a risk factor of ASVD in NIDDM.
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PMID:Macrovascular complications in relation to hyperinsulinaemia in non-insulin-dependent diabetes mellitus. 330 62

Plasma lipoproteins and apoproteins were compared among Chinese and American controls and non-insulin-dependent diabetic (NIDDM) subjects in the same laboratory. Apoprotein AI concentrations in Chinese subjects, both NIDDM subjects and controls (men, 147 and 158 mg/dl, respectively), were significantly higher than those in American subjects (men, 104 and 124 mg/dl, respectively). Apoprotein AII concentrations, however, were comparable between Chinese and American subjects. Chinese NIDDM subjects had lower high-density lipoprotein cholesterol (HDLC), higher low-density lipoprotein cholesterol (LDLC), and higher apoprotein B levels than Chinese controls. Chinese subjects with NIDDM had HDLC and LDLC levels similar to those of American controls but trends of higher HDLC and lower LDLC compared with American subjects with NIDDM. These differences may in part explain the relatively higher incidence of atherosclerotic vascular disease in Americans.
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PMID:Comparison of plasma lipoproteins and apoproteins in Chinese and American non-insulin-dependent diabetic subjects and controls. 374 15

Fasting plasma zinc levels were determined in 45 IDDM and in 40 NIDDM patients. Mean values were similar in both groups, but diabetic men showed a significantly higher plasma zinc (p less than 0.05) than diabetic women. In patients with diabetic nephropathy a lower zinc level was associated with decreased plasma albumin as compared to patients without complications (p less than 0.001). Neuropathy and macro-angiopathy were also associated with lower zincemia (p less than 0.05) but in the presence of normal albumin levels. In IDDM without nephropathy a significant positive correlation was found between plasma zinc and plasma glucose, albumin, branched chain amino acids and glutamine, while in NIDDM without nephropathy a significant positive correlation exists between plasma zinc and the amino acids glutamine, valine, histidine and lysine.
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PMID:Plasma zinc levels in diabetes mellitus: relation to plasma albumin and amino acids. 375 14

The heterogeneity within Type II diabetes (NIDDM) and within Maturity-Onset type Diabetes of Young people (MODY), a subset of NIDDM which is inherited in an autosomal dominant fashion, is discussed. Aspects of the definition and phenotypic expression of MODY are reviewed. Within NIDDM there are differences in patterns of inheritance between subgroups. HLA antigen associations are not found in most NIDDM populations but exist in three specific population groups with Type II diabetes. Within NIDDM and within MODY there are differences in the magnitude of insulin responses to glucose, differences in target tissue responsiveness to insulin in vivo, and differences in receptor and post-receptor effects of insulin. Structurally abnormal variant and biologically defective insulin molecules have been found in some Type II diabetic patients and in members of certain MODY families. The presence or absence of obesity may mark heterogeneous groups of Type II diabetic patients, in addition to the importance of obesity in uncovering an insulin secretory defect by causing insulin resistance. There is heterogeneity in susceptibility to vascular disease within NIDDM and MODY. The natural history of carbohydrate metabolism and of insulin secretory responses to glucose in early Type I diabetes and in MODY with low insulin secretory responses are illustrated and similarities and dissimilarities compared and contrasted. Failure to recognize young patients with MODY may contribute to incorrect diagnosis, management, and assignment of prognosis of this form of diabetes in the young by many practicing physicians. The recognition that Type I or insulin-dependent diabetes (IDDM) and Type II or noninsulin-dependent (NIDDM) differ from each other not only phenotypically but also in etiology and pathogenesis led the National Diabetes Data Group (NDDG) to devise the present nomenclature and classification of diabetes mellitus. These were adopted by the World Health Organization. As suggested by the NDDG report, the classification should be reexamined periodically to reflect improved understanding of the disease, to stimulate further research, and to be of help to practicing physicians.
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PMID:Heterogeneity within type II and MODY diabetes. 389 67

In order to assess the potential role of lipoprotein (a) as a risk factor for cardiovascular disease in diabetes mellitus, plasma concentrations were measured in a large group (n = 500) of non-insulin-dependent (NIDDM, n = 355) and insulin-dependent (IDDM, n = 145) patients. Concentrations of lipoprotein (a) were compared in diabetic patients with (n = 153) or without (347) documented vascular disease (ischaemic heart disease, peripheral vascular disease or macroangiopathy). They were significantly higher (p < 0.05) in patients with ischaemic heart disease (mean [interquartile range] 15.5 (5.0-38.0) vs 9.0 (4.5-26.0) mg/dl) or macroangiopathy (13.0 (5.0-38.0) vs 9.0 (4.0-25.0) mg/dl) compared to patients without manifestations of vascular disease. In addition, stepwise logistic regression analysis identified lipoprotein (a) levels > or = 30 mg/dl as being independently associated with the presence of cardiovascular disease. Lipoprotein (a) was an independent risk factor for ischaemic heart disease and macroangiopathy in this group of IDDM and NIDDM patients.
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PMID:Lipoprotein (a) and vascular disease in diabetic patients. 767 94

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


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