UMLS:C0948265 - FACTA Search

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Query: UMLS:C0948265 (metabolic syndrome)
24,271 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Type 2 diabetes mellitus is characterized by impaired insulin release and sensitivity, elevated blood sugar and unfavourable changes in blood lipids. Insulin resistance and adverse blood lipids are also seen in the state of essential hypertension (the metabolic syndrome). Patients should learn to measure their own blood sugar. Treatment usually begins with regulation of the diet for 3-6 months. If this treatment fails, the next step is to give oral antidiabetic agents. Insulin treatment is required 1) when blood sugar is excessively high; 2) when oral agents fail; and 3) in case of increased need of insulin due to intercurrent disease. Antihypertensive treatment should not have adverse metabolic effects in patients with type 2 diabetes.
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PMID:[Treatment of non-insulin dependent diabetes (type 2 diabetes mellitus)]. 155 62

Dependent on the dosages used, digestion and absorption inhibitors or disaccharidase inhibitors, such as Acarbose, might cause malabsorption of nutrients, and hence, among other effects, affect caloric balances. This negative effect on caloric balance has actually been well documented in animal experimentation. However, in nondiabetic subjects with excessive degrees of obesity, no consistent weight reduction could be induced by disaccharidase inhibitors. Subsequently, Acarbose has been advocated for type 2 diabetic patients in dosages that might reduce postprandial hyperglycemia and insulinemia, whereas significant degrees of malabsorption should be excluded. At these dosages of the drug, there is no clinical perspective with regard to weight-reducing (side) effects of disaccharidase inhibitors. Whether a hypothetical diminution of serum insulin daily profiles during Acarbose treatment in obese type 2 diabetic patients might contribute to a normalization of the metabolic syndrome and to a facilitation of weight-reducing efforts remains speculative. At present, there does not seem to be much rationale in trying to exploit digestion and/or absorption inhibitors for weight-reduction therapies in obesity, unless they are used to enforce a negative caloric balance by malabsorption of nutrients.
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PMID:Pharmacological treatment of obesity: digestion and absorption inhibitors-clinical perspective. 172 47

To investigate the metabolic effects of medroxyprogesterone acetate, carbohydrate and lipid metabolism in women with polycystic ovary syndrome was evaluated before and after long-term therapy with this drug. The effects of suppression of pituitary gonadotropins and ovarian sex steroids were correlated with the response to an oral glucose load and with a serum lipid profile. Twenty of 25 women with polycystic ovary syndrome weighted more than 150% of their ideal body weight. None of the patients had fasting hyperglycemia. Fasting and peak serum insulin responses to glucose were abnormally high in most patients with polycystic ovary syndrome. Fasting serum insulin had a significant positive correlation with percent ideal body weight (r = .7, P less than .01). High density lipoprotein cholesterol was low in all patients studied, whereas total cholesterol and serum triglyceride levels were normal. Therapy with medroxyprogesterone acetate did not affect body weight, glucose tolerance, or serum lipids. The correlations between serum testosterone and high-density lipoprotein cholesterol or insulin levels were not significant (P greater than .1). The authors conclude that medroxyprogesterone acetate does not affect the metabolic syndrome of obesity, hyperinsulinemia, and decreased high-density lipoprotein cholesterol that is commonly seen in patients with polycystic ovary syndrome.
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PMID:Abnormalities of fuel metabolism in the polycystic ovary syndrome. 621 33

Numerous surveys have shown that in industrial countries diabetic subjects develop hypertension more frequently than non-diabetic persons. In fact, three typical hypertension forms in these patients can be discerned: essential, renal, and isolated systolic hypertension. In type 2-diabetes (NIDDM) hypertension can be seen in close association with obesity, glucose intolerance, lipid changes, and insulin resistance within the framework of the metabolic syndrome. The increased incidence of hypertension in type 1-diabetes (IDDM) is a result of development of diabetic nephropathy. In the elderly type 2-diabetics particularly frequently isolated systolic hypertension is present which reflects increased arterial stiffness and loss of vascular distensibility. In hypertension progression of both macrovascular disease and microangiopathy is increased whereby interaction of hyperglycemia and hypertension seems to be the main risk factor. In most hypertensive diabetic patients drugs will be necessary to lower blood pressure in a therapeutical range. There are several effective substances available which should be prescribed individually according to the needs and accompanying conditions in these patients.
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PMID:[Hypertension and diabetes mellitus]. 847 40

For better comprehension of the metabolic syndrome, it is necessary to differentiate the effect of insulin on glucose metabolism on the one hand, and on other metabolic activities on the other hand. Whereas glucose utilization is affected by insulin resistance, the effect of insulin on lipid metabolism, ion and aminoacid transport does not seem to be diminished. Lipid metabolism, however, seems to play a crucial role in the induction of the vicious cycle. Increased energy and fat ingestion may be due to an increased number of galanin secreting cells in the hypothalamus. The excessive fat intake results in an increased rate of release of insulin and increased influx of triglycerides into the blood. From these triglycerides an excess of free fatty acids is released by the action of lipoprotein lipase. The increased plasma free fatty acid level then results in insulin resistance affecting glucose metabolism. Also, these free fatty acids may impair the secretion of insulin. Induction of insulin resistance results in higher glucose levels, which may cause hyperinsulinemia. Hyperinsulinemia maintains the elevation of triglycerides. When diabetes becomes overt and elevated glucose levels prevail, the hyperinsulinism acts on the metabolic pathways which are still sensitive to insulin, namely lipid metabolism, aminoacid transport and ion transport.
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PMID:Hyperinsulinemia, hyperproinsulinemia and insulin resistance in the metabolic syndrome. 864 79

Noninsulin-dependent diabetes mellitus is a genetically determined form of diabetes, due to impaired insulin secretion by the B-cells as well as to insulin resistance of the peripheral tissues. According to the glucose toxicity theory hyperglycemia and hyperinsulinemia exist in a vicious circle. Therefore, it is a major therapeutical aim to put the B-cell to rest and improve insulin sensitivity by a strict control of fasting blood glucose and of postprandial hyperglycemia. Furthermore, associated abnormalities within the metabolic syndrome, such as hypertension, dyslipoproteinemia and hemostatic disorders should be corrected to avoid vessel complications. Therefore, it should be started with basic measures as body weight reduction, carbohydrate-rich and fat-poor diet and exercise. If these measures fail to achieve acceptable glycemic control, antihyperglycemic drugs (acarbose, metformin) are indicated, eventually in a combination with small doses of short-acting sulfonylureas. Further impairment of insulin secretion is the indication for sulfonylurea and/or insulin application. HbA1c of 7 to 7.5% should be the goal of antidiabetic therapy, also for patients in advanced age. The main criterion for the choice of antidiabetics is the present insulin secretion capacity. Simple indicators in this respect are changes of body weight, plasma triglycerides and C-Peptide after i.v. glucagon stimulation. Application of insulin in combination with other antidiabetics or in the form of intensified insulin therapy should not be too much postponed.
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PMID:[Rational therapy of Type II diabetes]. 903 69

BM 17.0744 (2,2-dichloro-12-(p-chlorophenyl)-dodecanoic acid) is a substance from a group of omega-substituted alkyl carboxylic acids with the general formula, ring-spacer-carboxylic acid. With BM 17.0744-a compound structurally unrelated to thiazolidinediones--antihyperglycemic and antihyperinsulinemic potency has been demonstrated in various animal models of type II diabetes. The antidiabetic effect is independent of the genetic background of the disease, gender, and animal species. The 24-hour blood glucose profile was dose- and time-dependently improved in ob/ob mice after a single and fourth oral administration of 0.3, 1, and 3 mg/kg/d. A dose-dependent reduction of hyperglycemia (10%, 15%, 28%, and 66%) was found in db/db mice after the fifth oral administration of 3, 10, 30, and 100 mg/kg/d. Hyperinsulinemia was reduced dose-dependently in yellow KK mice by 1%, 24%, 34%, and 66% after the fifth oral administration of 0.3, 1, 3, and 10 mg/kg/d. Overall glucose metabolism was predominantly higher in euglycemic-hyperinsulinemic clamp studies in obese fa/fa rats pretreated for 14 days with 10 mg/kg/d BM 17.0744. The data in diabetic and insulin-resistant animals suggest an improvement of insulin action that is supported by enhancement of insulin effects in vitro. There is no evidence of a risk for hypoglycemia in diabetic and metabolically healthy animals. Triglyceride (TG) and cholesterol were reduced in the serum of metabolically healthy rats, as well as serum lipids in db/db mice, which suggests this effect is independent of amelioration of the diabetic status. Lipid-lowering effects in diabetic and healthy animals show an additional property of BM 17.0744. Because of its antidiabetic and lipid-lowering potency, the substance is of great interest in treating the metabolic syndrome. Lipid decreases in rats are associated with a dose-dependent increase in carnitine acetyltransferase activity in the liver to about 100-fold (12.5 mg/kg/d). This together with hepatomegaly in small rodents may indicate peroxisomal proliferation, a phenomenon considered species-specific. Its relevance for humans is well documented for other classes of compounds including fibrates. Specific side effects of insulin sensitizers of the thiazolidinedione type, such as an increase in body weight and heart weight, could not be observed after 4-week oral application of BM 17.0744 in rats. In general, BM 17.0744 was well tolerated in the pharmacological dose range in all species tested.
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PMID:BM 17.0744: a structurally new antidiabetic compound with insulin-sensitizing and lipid-lowering activity. 992 Jan 42

Diabetes mellitus is very common in older persons. Changes in exercise habits, body habitus, leptin, amylin, tumor necrosis factor alpha, and nitric oxide all play a role in the pathogenesis of age-related insulin resistance. In older persons elevated glucose levels not only produce retinopathy, neuropathy, and nephropathy but also decrease quality of life, pain tolerance, cognition, and functional status and increase injurious falls, nocturia, incontinence, pressure ulcers, and orthostatic hypotension. The availability of multiple new therapies has enhanced the ability of physicians to improve glycemic control in older persons without unacceptable levels of hypoglycemia. Caregivers play an important role in the management of older diabetics. Depression increases mortality rate and hospital admissions in older diabetics. In many nursing homes the quality of diabetic care is marginal. A new causative theory of the metabolic syndrome involving cytokines and nitric oxide-the NO cytokine theory-is proposed.
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PMID:An overview of diabetes mellitus in older persons. 1033 29

Postprandial (pp) hyperglycemia--frequently associated with an increase in cardiovascular risk factors--may be damaging for the endothelium. So far, little information exists how glucose, insulin and lipids may affect atherosclerosis in the pp state. Therefore, we evaluated the relationship of pp hyperglycemia, insulin secretion and coronary risk factors to intima-media thickness (IMT) in a non-diabetic risk population. In 403 subjects (147 males, 256 females), aged 40-70 years, in the majority relatives of index cases with type 2 diabetes--a 75 g oral glucose tolerance test was performed together with measurement of insulin fractions, various risk factors and IMT of the common carotid artery. We found a continuous rise of 2h pp insulin fractions along the quintiles of 2h pp plasma glucose. A significant increase of body mass index, waist to hip ratio, triglycerides and decrease of HDL-cholesterol was observed in the top quintile of 2h pp plasma glucose (8.24 > or = pp plasma glucose < 11.1 mmol/l). Albuminuria was significantly enhanced in the 5th quintile. In parallel, IMT was significantly increased in the 5th quintile versus the bottom quintile of 2 h and maximal glucose (range 11.7-15.3 mmol/l) postprandially. After age and sex adjustment pp glucose and C-peptide, total cholesterol, triglycerides and HDL-cholesterol but not fasting plasma glucose were significantly correlated to IMT. In multivariate analysis age, male sex, pp plasma glucose, total and HDL-cholesterol were found to be independent risk factors for increased IMT. In conclusion, our data in a non-diabetic European risk population show that the two top quintiles of pp plasma glucose are associated with a clustering of standard risk factors. Corresponding to this clustering of risk factors IMT was significantly increased in the top quintile of 2 h and maximal pp plasma glucose. These data show that pp hyperglycemia may exert a noxious impact on the arterial wall together with a cluster of anomalies typical for the metabolic syndrome.
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PMID:Postprandial plasma glucose is an independent risk factor for increased carotid intima-media thickness in non-diabetic individuals. 1038 Dec 96

Hyperleptinemia is considered to be one of predictors of early atherosklerosis complications. This stimulated us to investigate differences between leptinemia in persons with accelerated atherosclerosis and leptinemia in probands without atherosclerosis complications. The study also verified whether leptinemia and its relationship to other anthropometric and biochemical parameters can differ in hypolipemic-treated probands and hypolipemic-untreated individuals. We examined 89 probands with accelerated atherosclerosis. The controls were 20 persons without any signs of accelerated atherosclerosis. Probands with accelerated atherosclerosis had a slight hyperglycemia and were slightly obese, but they did not meet criteria of metabolic cardiovascular syndrome. No significant differences between both groups under study were found in terms of anthropometric and biochemical parameters (BMI, % body fat, glycemia, insulin, C-peptide, intact proinsulin, total proinsulin cholesterol, HDL, triglycerides, LDL, homeostatic model of insulin secretion and resistance). Leptin concentration was not different as well. Stratification into males and females showed that women had a significantly higher leptinemia and fat tissue mass. Other biochemical parameters were similar in both groups. We suppose that in individuals without signs of metabolic syndrome, leptinemia does not belong among predictors of accelerated atherosclerosis. The accelerated atherosclerosis persons were then divided into subgroups according to medication (28 probands--pravastatin Lipostat 20, 15 probands--phenofibrate Lipanthyl 200M, 9 probands--simvastatin Zocor 20, 47 probands--no hypolipemic medication). No significant differences between the groups were found in terms of the analysed anthropometric and biochemical parameters, except leptinemia. The pravastatin-medicated probands had a significantly lower leptinemia (significant at 99% significance level) which was evidently sex-related than other patients. The pravastatin-administered persons showed no correlation between leptinemia and body fat mass (in contrast to other groups where such a correlation was highly statistically significant). These findings can be explained by a still unclear effect of pravastatin on insulin metabolism and on other factors involved in leptin synthesis and elimination. Thus, a new therapeutic effect of pravastatin can be supposed. This may account for a highly favourable effect of pravastatin on reduced manifestations of atherosclerosis complications event at a low LDL cholesterol decrease (particularly in persons with metabolic cardiovascular syndrome).
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PMID:[Serum leptin, early atherosclerosis and hypolipidemia (a new, previously undescribed effect of pravastatin, a hypolipemic agent)]. 1042 91

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