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Clinical and epidemiological findings over the last few years are increasingly pointing to a metabolic syndrome comprising major cardiovascular risk factors, which frequently characterizes type II diabetes and its preliminary stages. More recent studies have shown that insulin resistance is genetically determined and can be detected in a pre-diabetic stage long before diabetes mellitus becomes manifest. It is thus not surprising that a large percentage of patients with type II diabetes already have clear signs of arteriosclerosis at the time the diagnosis is made. The results of the Schwabing study II indicate a "point of no return" for the development of cardiovascular disease, which makes early and vigorous intervention involving all facets of the metabolic syndrome a matter of urgency.
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PMID:[Metabolic syndrome and type-II diabetes. Relations to macroangiopathy]. 148 15

Epidemiological studies have documented the association between cardiovascular disease and high blood pressure, dyslipidaemia, impaired glucose tolerance, non-insulin-dependent diabetes mellitus (NIDDM), and central obesity. In fact, several of these abnormalities, often all of them, can be identified in the very same individuals, constituting the entity of the multiple metabolic syndrome. Furthermore, many of these abnormalities seem to run in families. These findings raise important questions about the genetic epidemiology of the disease and about the molecular genetic background of the most likely common nominator of this syndrome, namely insulin resistance. Therapeutic actions must also be carefully considered to avoid the encouragement of some abnormalities while treating others.
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PMID:Multiple metabolic syndrome: aspects of genetic epidemiology and molecular genetics. 148 39

Many studies have shown that hyperinsulinemia and/or insulin resistance are related to various metabolic and physiological disorders including hypertension, dyslipidemia, and non-insulin-dependent diabetes mellitus. This syndrome has been termed Syndrome X. An important limitation of previous studies has been that they all have been cross sectional, and thus the presence of insulin resistance could be a consequence of the underlying metabolic disorders rather than its cause. We examined the relationship of fasting insulin concentration (as an indicator of insulin resistance) to the incidence of multiple metabolic abnormalities in the 8-yr follow-up of the cohort enrolled in the San Antonio Heart Study, a population-based study of diabetes and cardiovascular disease in Mexican Americans and non-Hispanic whites. In univariate analyses, fasting insulin was related to the incidence of the following conditions: hypertension, decreased high-density lipoprotein cholesterol concentration, increased triglyceride concentration, and non-insulin-dependent diabetes mellitus. Hyperinsulinemia was not related to increased low-density lipoprotein or total cholesterol concentration. In multivariate analyses, after adjustment for obesity and body fat distribution, fasting insulin continued to be significantly related to the incidence of decreased high-density lipoprotein cholesterol and increased triglyceride concentrations and to the incidence of non-insulin-dependent diabetes mellitus. Baseline insulin concentrations were higher in subjects who subsequently developed multiple metabolic disorders. These results were not attributable to differences in baseline obesity and were similar in Mexican Americans and non-Hispanic whites. These results support the existence of a metabolic syndrome and the relationship of that syndrome to multiple metabolic disorders by showing that elevations of insulin concentration precede the development of numerous metabolic disorders.
Diabetes 1992 Jun
PMID:Prospective analysis of the insulin-resistance syndrome (syndrome X). 158 98

Insulin resistance associated with hyperinsulinemia (metabolic syndrome) emerged in recent years as an important health risk which is present in approximately 25% of the normal population in western industrialized societies. Insulin resistance as assessed for the whole body arises from a reduced glucose utilization of skeletal muscle. If the metabolic syndrome persists over a prolonged period of time, detrimental influences on the cardiovascular system become apparent involving diabetes mellitus, hypertension, and arteriosclerosis. Of particular pathogenic relevance is an unbalanced influence of insulin arising either from a diminished or enhanced insulin action depending on whether the various tissues of the body exhibit a reduced or unchanged insulin sensitivity. Since insulin resistance and hyperinsulinemia appear to be affected by various lifestyle factors, the unique opportunity exists of reducing cardiovascular mortality by correcting this syndrome at a time when degenerative changes have not occurred in the cardiovascular system. Of great importance is the finding that dietary factors can have a modulatory action on insulin sensitivity. In animal experiments, an increased intake of (saturated) fat and refined carbohydrates increased insulin resistance. Since psychosocial distress is expected to be associated with a sustained activation of the sympathoadrenal axis, it is likely also to aggravate the metabolic syndrome. A factor with a beneficial action appears to be physical exercise. In view of the high incidence of cardiovascular diseases, further research on lifestyle factors with an insulin-sensitizing or insulin-desensitizing action is required. Of prime importance is the reevaluation of established dietary recommendations and diets should be designed which take into account the individual cardiovascular risk factor profile.
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PMID:Insulin resistance, hyperinsulinemia, and cardiovascular disease. The need for novel dietary prevention strategies. 159 Jul 42

Insulin resistance appears as the pathophysiological basis of metabolic syndrome and NIDDM. In type 2 diabetics additionally we observe a delayed and prolonged postprandial insulin response. These both processes represent a pathophysiological and pathogenetic unity of disturbances. The prevention and therapy of insulin resistance, metabolic syndrome and type 2-diabetes with diet involves 3 main issues: reduction of energy uptake and of body weight in obese; Composition of meals concerning the principles of fat reduced lactovegetabile nutrition; guaranteeing of longer postabsorptive phases (between meals), to avoid a permanent postprandial hyperinsulinemia and development of insulin resistance. Anti-insulin resistance diet is therefore a carbohydrate enriched, fat-reduced (lactovegetabile) nutrition with not too frequent meals (longer meal-free phases) and mainly reduced energy intake in overweight.
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PMID:[Treatment of type 2 (non-insulin dependent) diabetes and the metabolic syndrome with diet]. 177 27

Heterogeneity of the metabolic syndrome in diabetes mellitus serves as an indication for plasmapheresis in therapy of disease. The effect of plasmapheresis on the indices of carbohydrate, lipid metabolism and immune homeostasis was studied in 30 patients with primary diabetes mellitus. Microstructure of the surface of dried blood serum drops was investigated in parallel with it. The control group included 20 patients who were not given plasmapheresis and 20 healthy subjects. A positive effect of plasmapheresis on the above indices was observed. Its approximate effect on the patients blood serum composition was shown.
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PMID:[Plasmapheresis in the therapy of insulin-dependent diabetes mellitus detected for the first time]. 178 Feb 80

Epidemiological studies have clearly shown that the so-called metabolic syndrome which is linked to insulin resistance and a reduced glucose utilization of muscle represents an important risk factor for cardiovascular disease. However, only little is known of the intracellular consequences of insulin resistance. An important feature of an altered substrate utilization is related to signal transduction of gene expression. For the example of myosin heavy chain expression, it is shown that metabolic signals exist which reflect the fuel flux and substrate utilization of the heart muscle cell. The signals were characterized in functional states of the heart associated with altered metabolic influences (fasting, diabetes, sucrose feeding, increased calorie intake, carnitine palmitoyltransferase inhibition). In the pressure-overloaded heart, metabolic interventions which are expected to increase glucose utilization (sucrose feeding, captopril treatment) have a pronounced effect. Although a link with gene expression remains to be established, it should be noted that the sarcoplasmic reticulum Ca(2+)-pump activity seems to be affected in a functionally comparable manner. It is concluded that metabolic signals alter the protein phenotype of heart muscle and it is expected that a deranged signal transduction affects, not only the heart, but also vascular muscle.
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PMID:The metabolic syndrome and signal transduction of gene expression. 183 54

Serum total calcium concentrations (CaT) were increased, ionized calcium concentrations (CaI) normal, and the CaI/CaT ratios decreased in 125 geriatric diabetics as compared with 379 non-diabetic controls. In the whole population of 558 consecutive geriatric inpatients, the CaI/CaT ratios were inversely correlated with body weight, diastolic blood pressure and plasma glucose. The findings and calculations help to explain some inconsistencies and discrepancies in previous studies concerning calcaemia in diabetes, hypertension and the 'metabolic syndrome' of clustered risk factors for cardiovascular diseases. They also demonstrate that CaT and the 'correction' of CaT for serum albumin concentration can be biased in diabetes and other conditions closely associated with cardiovascular risks. Increased serum free fatty acids could at least in part explain low ratios.
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PMID:Low serum ionized to total calcium ratio: association with geriatric diabetes mellitus and with other cardiovascular risk factors? 227 24

Using the baseline data of the diabetes intervention study (DIS) from 1126 newly manifested type II-diabetics our analysis demonstrates higher mean-values of some components of the so-called metabolic syndrome in patients with ECG-abnormalities indicating coronary heart disease (CHD) in diagnosis of diabetes compared with subjects without ECG-findings. The impact of general risk factors for the prevalence of CHD in diagnosis and after a 5-year follow-up is obviously different in both sexes. In multivariate analysis only systolic blood pressure was persistently a significant predictor in both sex groups. With increasing age life-duration gets as time-related factor importance for the development of CHD. The mathematically demonstrated association of triglyceride levels to the presence of ECG-abnormalities agrees with the results of WHO multinational study of vascular disease in diabetes mellitus. In the interventions as well as in the control-groups diabetic subjects with CHD after 5 year follow-up showed in comparison to diabetics without CHD higher levels of investigated risk factors which develop their pathogenetic effect probably by their clustering impact, because the differences of their mean-values are only in some cases significant. The common lower level of the most risk factors at the intervention group compared with the conventionally treated group is the result of the intervention measures.
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PMID:[Coronary heart diseases and associated risk factors in newly manifested type II diabetic patients over the course of 5 years]. 272 58

Atherosclerosis, coronary artery disease and elevated serum cholesterol are frequently associated with an abnormal pattern of androgen metabolites, especially an elevation of etiocholanolone (E) and/or epiandrosterone (EA) relative to androsterone (A). Therapeutic correction of these metabolic defects may lower serum cholesterol. We have attempted to reproduce this metabolic syndrome in rats by altering their endocrine status. Intact male rats excreted very little A or E in their bile; more than 80% of the [4-14C]A-dione was excreted as unknown polar compounds. Adrenalectomy, thyroidectomy or streptozotocin diabetes induced little or no change in the excretion of both E and A and did not alter the A/E ratio. Hypophysectomy (hypox), however, resulted in a huge increase in E excretion and a 10-fold decrease in the A/E ratio. Treatment of hypophysectomized males with bovine growth hormone (bGH) but not testosterone or thyroxine restored the pattern of androgen metabolites to that of intact male rats. Intact female rats excreted mainly A, and this was decreased by ovariectomy. Hypophysectomy, however, resulted in a marked increase in E and a corresponding large decrease in A excretion. Treatment of hypox females with estradiol or triiodothyronine did not correct the metabolic defects in A and E production, whereas GH resulted in a pattern of A-dione metabolism resembling that of intact males; i.e., primarily polar metabolites with low A and E. Hypophysectomy thus results in a dramatic increase in 5 beta-reductase activity in male and female rats. GH therapy restores the metabolic pathway to that seen in intact males. Our objective had been to find a model capable of detecting substances which would increase A and decrease E production. The male rat (regardless of endocrine status) has little 5 alpha-reductase activity. The intact female rat, however, has high 5 alpha-reductase activity, and retains significant 5 alpha-reductase in the absence of the ovaries. In hypox females, 5 alpha-reductase was much reduced while 5 beta-reductase was increased. Furthermore, serum cholesterol was elevated in hypox females but could be lowered by exogenous androsterone. Thus the hypox female rat appears to offer the best model for identifying non-hormonal agents which could enhance the production of A and/or decrease the production of E. Such agents might favorably influence cholesterol metabolism.
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PMID:Effects of altered endocrine function on biliary metabolites of [4-14C]androst-4-ene-3,17-dione in rats. Possible utility as a model for identifying anti-atherosclerotic agents. 399 76


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