UMLS:C0028754 - FACTA Search

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Query: UMLS:C0028754 (obesity)
124,988 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. Groups of lean and obese LA/N-cp rats were administered the intestinal glucosidase inhibitor acarbose at 150 or 300 mg/kg diet from 7 until 17 weeks of age and the effects of the drug on food intake patterns and adiposity determined. 2. Dose related effects on body weights, adiposity and feed efficiency ratio were observed (control greater than 150 mg greater than 300 mg drug/kg diet) following treatment in both phenotypes, with the greatest differences observed in the obese phenotype. 3. Acarbose at both dosages was associated with phenotype-specific alterations in food intake amount and feeding pattern, resulting in an attenuation of age-associated increases in food intake. The feed efficiency ratio decreased in both phenotypes, and approached normally fed lean controls in obese rats administered the greater dosage. 4. These results indicate that patterns of food intake and weight gain differ markedly between lean and obese rats of this strain, and acarbose brings about a dose-related attenuation of developing food intake patterns in both phenotypes and which are associated with decreases in weight gain and adiposity. Thus, this drug may have therapeutic potential as an adjunct agent in the treatment of obesity and/or other disorders of carbohydrate intolerance.
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PMID:The effect of acarbose on the food intake, weight gain, and adiposity of LA/N-cp rats. 168 64

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

Acarbose is an alpha-glucosidase inhibitor which reversibly and competitively inhibits the digestion of oligo- and disaccharides at the brush border of the small intestine. This study evaluates the preventive and therapeutic properties of acarbose in the treatment of obesity. Dose-response experiments were performed during repeated sucrose loads in man in order to investigate the effects of acarbose on plasma insulin and blood glucose levels. After titration of efficient doses, a long-term tolerance test of acarbose was undertaken in a small pilot study. Finally, the relapse preventing effect of acarbose was tested during double-blind cross-over conditions in 24 weight reduced obese women. In growing Sprague-Dawley rats, the effects of acarbose on body weight, lipid depots and adipose tissue cellularity were tested during pair-feeding and ad libitum conditions. Such effects were also studied in adult ad libitum-fed rats. Blood glucose, plasma insulin, body fat, depot lipids as well as fat cell weight and number were determined with established techniques. During a sucrose load, acarbose reduced insulin in a dose-dependent fashion. Glucose was also reduced, but not dose-dependently and only to a moderate extent. During a 200 g sucrose load, 400 mg of acarbose did not necessarily result in a maximal reduction of the insulin response while the glucose response was maximally inhibited after 100 mg. Acarbose reduced the relapse rate after weight reduction. No serious side effects were observed. Flatulence and meteorism occurred frequently. In growing rats, acarbose retarded the development of body weight and of lipid depots not only during pair-feeding conditions but also in ad libitum-fed animals eating considerably more than their controls. The spontaneous food consumption was increased by acarbose also in adult rats but in these animals neither body weight nor lipid depots were significantly reduced by acarbose. It is concluded that acarbose induces a carbohydrate malabsorption. Insulin levels are reduced not only via a decreased glycemic stimulus but also by interference with other insulin releasing mechanism(s). Acarbose is the first drug ever tested with long-term relapse reducing effects after weight reduction. Animal experiments suggest that acarbose may be of value in the prevention of obesity, particularly since the drug retards lipid accumulation also during ad libitum-feeding.
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PMID:alpha-Glucosidase inhibition in obesity. 391 27

Acarbose, a complex oligosaccharide, is a potent competitive inhibitor of sucrase and decreases postprandial hyperglycemia when administered with food. To evaluate its potential for metabolic control and prevention of diabetic nephropathy, groups of gentically diabetic mice (C57 BLKsJ db/db) were treated with Acarbose for 10 wk. Control mice received normal chow and experimental groups were given Acarbose prepared as a drug-food mixture in doses of 10, 20, and 40 mg/100 g of food. Acarbose did not influence fasting blood glucose, food intake, or the normal development of obesity in the mice. Urinary glucose excretion and glycosylated hemoglobin was significantly reduced in animals receiving high-dose Acarbose (40 mg/100 g food). Immunopathologic examination of the kidneys showed a dose-dependent decrease in glomerular mesangial immunoglobulin deposition. By light microscopy, glomerular mesangial thickening was significantly reduced in the group receiving high-dose Acarbose (40 mg/100 g food). To the extent that Acarbose improves metabolic control in the db/db mouse, chronic treatment with this agent produces a dose-dependent amelioration of diabetic nephropathy. Alphaglycosidase inhibition may be a useful adjunctive therapy for blood glucose control in diabetes mellitus.
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PMID:The effect of chronic alpha-glycosidase inhibition on diabetic nephropathy in the db/db mouse. 675 41

Acarbose is a potent intestinal glucosidase inhibitor which could have an anti-obesity property by reducing postprandial plasma glucose and insulin levels, potentially responsible for high rates of lipid synthesis in adipose tissue. We have tested this hypothesis by studying rats during the weaning period, when the lipogenic capacity of the adipose tissue develops. Rats were treated from age 19 days onwards with acarbose (10 mg/100 g diet) and studied at age 30 days. Acarbose was efficient in reducing postprandial excursions of both blood glucose and plasma insulin. Acarbose-treated rats behave like rats continuously infused with glucose with no metabolic signs of carbohydrate deprivation since gluconeogenesis was not activated. There was no massive caecal fermentation of carbohydrate since volatile fatty acids did not significantly increase in the portal blood. One of the most striking features of the acarbose-treated rats was the reduction of adipose tissue weight due to a reduced adipocyte size. This was concomitant with a reduced lipogenic capacity from glucose in isolated adipocytes under insulin stimulation. The activity of fatty acid synthase and acetyl-CoA carboxylase was decreased concomitantly with a reduced expression of their specific mRNA. This study allows the conclusion that postprandial hyperinsulinaemia and hyperglycaemia have a major role in the control of expression of lipogenic enzymes and thus on adipose tissue lipogenic capacity.
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PMID:Effect of acarbose on glucose homeostasis, lipogenesis and lipogenic enzyme gene expression in adipose tissue of weaned rats. 810 98

The JCR:LA-corpulent rat is a strain exhibiting marked obesity and metabolic derangements characterized by hyperlipidemia due to hypersecretion of very-low-density lipoprotein (VLDL) and severe insulin resistance. The corpulent male rats spontaneously develop atherosclerosis and ischemic myocardial lesions. Male corpulent rats were treated with acarbose in the presence and absence of sugar-supplemented diets. The acarbose-treated rats had lower body weights at 3 months of age with unaltered food consumption, and a similar effect was seen with a high-fructose diet. Fasting insulin concentrations were decreased significantly in acarbose-treated animals at both 3 and 9 months of age, and the rate of plasma glucose disappearance increased at 3 months of age. Acarbose treatment did not affect whole-serum triglyceride concentrations, but there were modest decreases in cholesterol levels. Sugar-supplemented diets caused no significant changes in insulin or glucose concentrations, and caused small increases in nonesterified cholesterol only. Fructose- but not sucrose-supplemented diets were associated with a significantly decreased frequency of old scarred myocardial lesions. The frequency of occurrence of such lesions was also decreased by acarbose treatment. This effect of acarbose treatment may reflect improvement in insulin and glucose metabolism in treated rats. The decrease in myocardial lesions in fructose-fed rats may be secondary to increased carbohydrate metabolism via the pathways leading from fructose to triglyceride.
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PMID:Beneficial effects of acarbose in the atherosclerosis-prone JCR:LA-corpulent rat. 847 19

To evaluate the effect of insulin and/or triglycerides on the pathogenesis of glomerulosclerosis, acarbose (BAYg5421), an inhibitor of intestinal alpha-glucosidases, was administered as a dietary admix (40 mg/100 g chow) to Zucker obese rats (ZOA), from 1.5 months until sacrifice at 1.5, 5, 8, 10 and 15 months. Obese (ZO) and lean (ZL) rats served as controls. Despite a similar food intake, ZOA weighed less than ZO at all ages. Acarbose reduced serum triglycerides at all ages, and insulin until 10 months. Glycemia remained normal in all groups. Proteinuria developed with age and to a greater degree in ZO than in ZOA rats. In ZL, a faint proteinuria appeared only in the oldest animals. Glomerulosclerosis, tubular and interstitial lesions rapidly affected ZO kidneys. These lesions were reduced in ZOA until 10 months. Acarbose did not modify the hypertrophy of the glomeruli that developed after three months, but slowed down the expansion of the mesangial domain seen in ZO. Thus, by reducing the amount of ingested glucose, acarbose yielded a normal glycemia with a lesser production of insulin and reduced renal impairment. Therefore, insulin could be a key factor involved in the pathogenesis of glomerulosclerosis, either directly or through a control of triglyceride concentrations.
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PMID:Reduction of insulin and triglycerides delays glomerulosclerosis in obese Zucker rats. 940 98

Genetically (fa/fa) obese Zucker rats represent an established model of impaired glucose tolerance, with profound insulin resistance. Acarbose, an inhibitor of alpha-glucosidases, attenuates postprandial blood glucose peaks, and improves glucose tolerance in these animals. In the present study, we have tested the hypothesis that the effect of acarbose is associated with improved glucose transporter isoform 4 (GLUT4) trafficking in muscle tissue. Acarbose was administered to Zucker rats as a dietary admix (40 mg/100 g diet) for 12 weeks starting at the age of 6 weeks. Serum insulin and leptin were reduced by acarbose from 44 to 19 and 144 to 62 ng/ml, respectively. Glucose tolerance test was performed by i.v. injection of glucose (1 g/kg) and determination of serum glucose up to 60 min. Marked impaired glucose tolerance was observed in obese animals with a profound correction of this defect in acarbose-treated rats. Insulin-regulated translocation of GLUT4 to the plasma membrane in soleus muscle was increased twofold in lean animals, with a totally blunted response in obese rats. Acarbose feeding restored a 1.6-fold effect of insulin on GLUT4 translocation. The exocytotic GLUT4 storage pool in cardiac muscle was completely insulin-insensitive in obese animals, with a largely improved response after acarbose feeding. Activation of Akt, an insulin signaling event upstream of GLUT4, was completely normalized in acarbose-treated rats. In conclusion, we show here that early application of acarbose to obese Zucker rats can prevent the development of impaired glucose tolerance and obesity-associated insulin resistance at the level of the muscle cell, as reflected by an amelioration of defective GLUT4 trafficking in both cardiac and skeletal muscles.
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PMID:Early acarbose treatment ameliorates resistance of insulin-regulated GLUT4 trafficking in obese Zucker rats. 1206 5

Several epidemiological studies have shown an association between postprandial hyperglycemia and mortality from cardiovascular disease. Postprandial hyperglycemia is frequently associated with visceral obesity which plays a key role in metabolic abnormalities such as dyslipidemia and hypertension. Inhibitors of alpha-glucosidase and nateglinide have beneficial effects on the metabolic syndrome associated with visceral obesity. Voglibose in combination with diet therapy reduces visceral fat deposition and ameliorates insulin resistance. Acarbose slightly reduces blood pressure of hypertensive diabetic patients. Nateglinide, a rapidly acting insulin secretagogue, lowers postprandial glucose levels without significant body weight gain. These drugs may protect pancreatic beta-cells from postprandial glucose toxicity and prevent the progression of diabetes.
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PMID:[Pharmacological treatment of postprandial hyperglycemia in hypertensive patients with type 2 diabetes mellitus]. 1287 88

Burgeoning obesity is increasing the prevalence of type II diabetes mellitus. As a consequence, there will be an even greater burden of cardiovascular disease, end-stage renal disease, blindness, and lower extremity amputations. If diagnosed, impaired glucose tolerance presents an opportunity for intervention that potentially could delay or prevent the development of diabetes. Recent prospective studies document the effectiveness of exercise and weight reduction in preventing diabetes. Metformin is less effective than intense lifestyle interventions. Acarbose, losartan, orlistat, pravastatin, ramipril, and hormone replacement therapy are associated with lower rates of the development of diabetes. The Diabetes Reduction Assessment with Ramipril and Rosiglitazone Medication (DREAM) trial and the Nateglinide and Valsartan in Impaired Glucose Tolerance Outcomes Research (NAVIGATOR) trial were designed to assess not only the prevention of diabetes but also the impact on cardiovascular morbidity and mortality.
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PMID:Preventing type II diabetes mellitus. 1505 49

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