Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011849 (diabetes)
277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

An uncontrolled multicenter study of the efficacy and safety of treatment of diabetes with acarbose was conducted on 169 NIDDM patients in 12 medical centers in Israel. Acarbose was administered for 19 weeks, and the patients were followed for an additional 12 weeks. A substantial decrease in HbA1c levels from 8.5% to 7.5% (p < 0.001) and in postprandial serum glucose levels from 283.6 mg/dl to 248.5 mg/dl (p < 0.01) was seen during treatment. On follow-up, HbA1c levels increased by 0.45% and postprandial serum glucose rebounded from 256.4 mg/dl to 287.9 mg/dl. Acarbose was shown to be effective in treating NIDDM and to be safe and well-tolerated.
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PMID:[Efficacy and safety of acarbose treatment of NIDDM]. 915 94

Acarbose is a competitive inhibitor of the intestinal alpha-glycosidases, that can delay absorption of intestinal carbohydrates causing their malabsorption. In the present paper we studied the effects of insulin, acarbose and their association on glomerular basement membrane thickening in alloxan-diabetic rats. Twenty-five male and female Wistar rats, approximately 3 months old at the beginning of the experiment, were assigned randomly to each of five experimental groups: normal control rats, alloxan-diabetic control rats, alloxan-diabetic rats treated with acarbose, alloxan-diabetic rats treated with insulin, and alloxan-diabetic rats treated with insulin plus acarbose. Alloxan was administered in a single i.v. dose of 442 mg/kg body weight. Insulin was given subcutaneously at doses of 18 to 30 IU/kg corrected daily on the basis of glycosuria and ketonuria. Acarbose was given mixed with rat chow in a dose of 50 mg/100 g chow. Body weight, water and food intake and diuresis, as well as blood and urine glucose were determined after 1, 3, 6, 9, and 12 months of treatment. Glomerular basement membrane (GBM) thickening was determined by electron microscopy at the same times. Clear clinical and laboratory signs of severe diabetes, with blood glucose levels above 200 mg/dl and urine glucose above 3000 mg/dl, were observed in all alloxan-diabetic control rats, in all periods of follow-up, whereas administration of insulin or acarbose reduced the blood glucose levels of treated groups. The most satisfactory control of blood and urine glucose was observed in animals treated with both insulin and acarbose. However, diarrhea was observed in diabetic rats treated with acarbose associated or not with insulin. GBM thickening was correlated with age in all groups. Beginning at six months after diabetes induction, the GBM of untreated diabetic rats was significantly thicker (mean +/- SEM, 4.446 +/- 0.45 mm) than that of normal rats (2.977 +/- 0.63mm). Both insulin and acarbose prevented GBM thickening and their combination induced thickening similar to the age dependent thickening observed for normal rats of the same age. We conclude that acarbose when combined with insulin may be a good option in the control of diabetes and its renal complications.
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PMID:Effect of long-term treatment with insulin and/or acarbose on glomerular basement membrane thickening in alloxan-diabetic rats. 918 Nov 5

We evaluated the effect of acarbose, an alpha-glucosidase inhibitor, on glucose intolerance in patients with non-insulin-dependent diabetes mellitus (NIDDM). Acarbose was given orally (300 mg/day) for 24 weeks to 20 NIDDM patients. Data in an oral glucose tolerance test (OGTT) were evaluated before and after 24 weeks of treatment using principal component analysis. Acarbose administration significantly reduced the postprandial plasma glucose level over 24 weeks of treatment. Principal component analysis suggested that the patients were separated into responders and non-responders. There was a significant improvement of fasting and postprandial glucose levels after 12 and 24 weeks in the responders, but not in the non-responders. Plasma glucose level following the OGTT improved significantly after 24 weeks of treatment in the responders (Hotelling T2 value = 47.098, P = 0.022500), but not in the non-responders. The immunoreactive insulin level did not change in either group. Results thus suggest that acarbose improved insulin resistance in some patients with NIDDM (responders as classified by principal component analysis).
Diabetes Res Clin Pract 1997 Aug
PMID:Effect of acarbose on glucose intolerance in patients with non-insulin-dependent diabetes mellitus. 927 83

To assess the efficacy and safety of acarbose as an adjunct to high sulfonylurea (SU) doses in patients with imminent SU failure, a randomised, multicentric, 6 month double-blind, parallel and placebo-controlled trial was performed in primary healthcare. Entry criteria were: NIDDM patients in concomitant dietary follow-up, age > 40 year-old, more than 3 years of diagnosed diabetes, baseline HbAlc levels between 8-12% (N: 4-6%), stable body mass index < 35 kg m-2 and glibenclamide daily dose > 10 mg. After 1 month placebo run-in period all patients were randomly allocated into two groups of treatment (acarbose 100 mg t.i.d. vs placebo). HbAlc levels, the main efficacy variable, lipid profile, fasting and postprandial blood glucose levels were performed and adverse events were also recorded. A total number of 65 patients were randomised, 36 in acarbose and 29 in a placebo group. No statistical differences were found on age (60.2/61.7 year-old), BMI (28.7/27.4 kg m-2), glibenclamide dose (14.5/14.0 mg/day) and baseline HbAlc (9.0/8.8%). Acarbose-treated patients significantly reduced HbAlc levels (9.0/7.9 vs 8.8/8.5%; P < 0.01), based upon a marked decrease, but statistically not significant, in mean postprandial plasma glucose levels (11.9/9.6 vs 12.4/11.1 mmol l-1). No significant differences between fasting plasma glucose and lipid profile were detected. A total of 31 patients (47.7%) reported adverse events, 20 (55.5%) and 11 (37.9%) in acarbose and placebo treatment group respectively. Relationship with drug was estimated as possible or probable in 16 (44.4%) of acarbose-treated patients. None of them were excluded from study participation due to insulin requirement. Only seven patients (10.7%), six with acarbose (16.6%) and one with placebo (3.8%), withdrew the study because of the adverse events. Thus, acarbose seems to be a useful option in order to improve HbAlc levels in non-insulin-dependent diabetes mellitus with imminent sulfonylurea failure.
Diabetes Res Clin Pract 1997 Oct
PMID:Acarbose in ambulatory treatment of non-insulin-dependent diabetes mellitus associated to imminent sulfonylurea failure: a randomised-multicentric trial in primary health-care. Diabetes and Acarbose Research Group. 934 44

Type 2 diabetes mellitus (formerly named non-insulin-dependent diabetes mellitus or NIDDM) is a heterogeneous disease resulting from a dynamic interaction between defects in insulin secretion and insulin action. Various pharmacological approaches can be used to improve glucose homeostasis via different modes of action: sulphonylureas essentially stimulate insulin secretion, biguanides (metformin) act by promoting glucose utilisation and reducing hepatic-glucose production, alpha-glucosidase inhibitors (acarbose) slow down carbohydrate absorption from the gut and thiazolidinediones (troglitazone) enhance cellular insulin action on glucose and lipid metabolism. These pharmacological treatments may be used individually for certain types of patients, or may be combined in a stepwise fashion to provide more ideal glycaemic control for most patients. Selection of oral antihyperglycaemic agents as first-line drug or combined therapy should be based on both the pharmacological properties of the compounds (efficacy and safety, profile) and the clinical characteristics of the patient (stage of disease, bodyweight, etc.). Mildly hyperglycaemic patients should preferably be treated with metformin, acarbose or thiazolidinediones (which are not associated with any hypoglycaemic risk), while more severely hyperglycaemic individuals should receive a sulphonylurea. In moderately hyperglycaemic patients, sulphonylureas should be preferred in nonobese patients while metformin, and probably also thiazolidinediones, should have priority in obese insulin-resistant type 2 diabetic patients. Acarbose is mainly indicated to reduce post-prandial glucose fluctuations and improve glycaemic stability. Each antihyperglycaemic agent may also be combined with insulin therapy to improve glycaemic control and/or reduce the insulin requirement of diabetic patients after secondary failure to oral treatment. Finally, safety should be taken into account in elderly patients and/or those with renal impairment, especially as far as the use of sulphonylureas (higher risk of hypoglycaemia) and metformin (higher risk of lactic acidosis) is concerned.
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PMID:Oral antidiabetic agents. A guide to selection. 950 42

We previously demonstrated that chronic dietary treatment with acarbose, an alpha-glucosidase inhibitor, improves glucose homeostasis in the streptozotocin (STZ)-induced diabetic rat. In this study we evaluated the effects of 4 weeks of acarbose treatment on glucose homeostasis in STZ-diabetic rats for both meal-fed (three times daily) and ad libitum feeding conditions. Sprague Dawley male rats (n = 58) were started on a daily meal-feeding paradigm consisting of three 2-h feeding periods: 0700 to 0900 hours, 1300 to 1500 hours, and 1900 to 2100 hours. Following 2 weeks of adaptation, half of the animals were switched to ad libitum feeding. The feeding paradigm itself (meal fed versus ad lib.) affected neither body weight nor daily food intake. Twenty animals from each feeding group then received STZ (60 mg/kg i.v.), whereas control animals received vehicle injections only. Two days later, the diet of 10 STZ-treated animals from each paradigm was supplemented with acarbose (40 mg of BAY G 5421/100-g diet), and the groups were treated for 4 weeks. Untreated diabetic rats had lower body weight than vehicle-injected control rats at all time points after STZ treatment. Acarbose treatment delayed this effect on body weight. STZ treatment induced hyperphagia regardless of feeding paradigm, which was significantly attenuated by acarbose only for the first week of treatment. Untreated diabetic rats had fasting blood glucose values 4 times those of vehicle-injected controls in both the meal-fed and ad libitum-fed conditions. Acarbose significantly lowered fasting blood glucose in the treated STZ groups. Blood glucose was also assessed 0, 90, and 180 min following the start of a meal. The postprandial rise in blood glucose was significantly reduced in acarbose-treated meal-fed diabetic rats, to values not significantly different from those of vehicle-injected control rats. During the fourth week of treatment glycated hemoglobin levels were significantly higher in untreated diabetic groups compared to vehicle-injected control groups. Acarbose treatment significantly reduced this rise, regardless of the feeding paradigm. Collectively, the results demonstrate that acarbose reduces diabetes-induced increases of blood glucose and glycated hemoglobin and that the glycemic effects of acarbose are most apparent during the absorptive period. Feeding paradigm (ad lib. versus meal fed) has little or no influence on acarbose's metabolic effects, indicating that large meals are not required to realize the beneficial effects of the drug. The meal-fed STZ-diabetic rat may be a good model with which to test meal-based diabetes treatments.
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PMID:Positive effects of acarbose in the diabetic rat are not altered by feeding schedule. 961 10

This study evaluated the efficacy of acarbose in improvement of metabolic control in patients with fairly, well controlled non-insulin-dependent diabetes mellitus (NIDDM). Fifteen patients with mean age and duration of diabetes of 57.5 +/- 2.6 (SE) and 7.5 +/- 1.5 years, respectively were recruited and completed our study protocol. This study was a double-blind, crossover, placebo-controlled design consisting of two twelve-week treatments of acarbose and placebo separated by an eight-week washout period. Acarbose was effective in lowering of 1-hour and 2-hour postprandial plasma glucose from 251.7 +/- 10.7 and 205.3 +/- 9.1 mg/dl to 197.4 +/- 7.0 (p = 0.001) and 181.5 +/- 8.5 mg/dl (p = 0.03), respectively. Fasting plasma glucose was slightly decreased but without significant change, from 150.8 +/- 7.3 to 140.8 +/- 6.1 mg/dl (p = 0.07). Overall glycemic control tended to improve during the study period as indicated by the falling of HbA1c levels from 7.7 +/- 0.4 to 7.0 +/- 0.2 per cent (p = 0.05). Serum C-peptide both fasting and postprandial as well as serum lipids were not affected by acarbose. Almost half of the patients treated with acarbose had mild and tolerable gastrointestinal adverse effects. In conclusion, acarbose, as combined therapy with other oral hypoglycemic agents, was effective in improvement of glycemic control particularly postprandial hyperglycemia in fairly, well controlled NIDDM patients with mild and acceptable adverse effects.
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PMID:Effect of acarbose in treatment of type II diabetes mellitus: a double-blind, crossover, placebo-controlled trial. 962 11

Acarbose is the first of a new class of antidiabetic agents, the alpha-glucosidase inhibitors. Acarbose has proven effectiveness as a first-line drug in type 2 diabetes insufficiently controlled by diet alone. In addition to providing short-term glycemic control, acarbose also reduces HbA1c levels. This effect is greatest when therapy is initiated early in the disease and when baseline HbA1c levels are high. Depending on the baseline HbA1c value, therapeutic doses of acarbose lead to a HbA1c reduction of 0.5%-1.2%. Acarbose may be safely combined with all oral hypoglycemic agents, and has been found to have utility as an adjunct to sulfonylurea and metformin therapy. It also improves control of insulin-treated type 2 diabetes and enables a reduction of exogenous insulin requirements of up to 30%. Acarbose also has beneficial effects on the coronary risk factors, e.g. postprandial triglyceride levels, elevated cholesterol, and hyperinsulinemia. The early phase of acarbose therapy may be associated with side effects such as meteorism, flatulence, and diarrhea. These result from the local effect of the drug and decline with time. To date, there have been no reports of systemic toxicity. Acarbose does not cause hypoglycemias or weight gain.
J Diabetes Complications
PMID:The role of acarbose in the treatment of non-insulin-dependent diabetes mellitus. 964 42

Insulin sensitivity is impaired in overweight subjects with IGT and is accompanied by hyperinsulinemia, a condition, that might promote early B-cell exhaustion. Twelve subjects were recruited for a double-blind trial using either 100 mg of acarbose or placebo for three months. Insulin sensitivity was measured by hyperglycemic clamp and with the minimal model. Baseline characteristics such as body weight, BMI, blood glucose, HB-A1c and serum lipids did not change throughout the study period. The steady state glucose infusion rate (SSGIR) improved significantly following acarbose. The insulin sensitivity as measured by clamp (MI) or minimal model, (SI), however, increased only descriptively (p = 0.08). The fasting proinsulin was raised in all subjects during pretreatment. Following acarbose, the proinsulin dropped from 20.3 +/- 12.9 to 13.6 +/- 7.1 ng/ml, but remained unchanged in the placebo group. Due to the high variability of values and the low number of subjects in this study, differences were only descriptive and did not reach significance (p = 0.08). The proinsulin/insulin ratio, however, significantly decreased after 3 months of acarbose treatment. Acarbose might therefore be considered recommendable for the protection of the B-cell function and for delaying the transition of IGT to overt NIDDM.
Exp Clin Endocrinol Diabetes 1998
PMID:The effect of acarbose on insulin sensitivity and proinsulin in overweight subjects with impaired glucose tolerance. 971 Mar 65

Elevated serum triglyceride levels may be related to the following clinical features: increased blood coagulation and viscosity, increased serum fibrinogen levels, decreased fibrinolysis, and for serum levels over 1000 mg/dl, a strong increase of acute pancreatitis rate. Pharmacological choice among the numerous drugs to treat hypertriglyceridemias is currently debated. Our study was aimed to assess the therapeutic efficacy of acarbose in the treatment of non-diabetic subjects, affected by familiar hypertriglyceridemia (FH). We studied 18 non-diabetic patients (10 males, 8 females; mean age 57.61+/-6.85 years) without family history of diabetes mellitus affected by familiar hypertriglyceridemia. The study protocol planned a treatment period of 20 weeks, divided into five 4-week courses and made up as follows: diet plus acarbose therapy (4 weeks); diet therapy alone (4 weeks) alternatively. In the second and fourth 4-week courses diet plus acarbose were administered, while diet therapy alone was administered in the first, third, and fifth 4-week courses. Acarbose doses consisted of 50 mg (1/2 pill) twice daily. Mean serum triglyceride levels, after first month of dietary treatment, underwent a significant reduction from 481.5 +/- 67.1 mg/dl to 389.5 +/- 62.7 mg/dl, even if they did not reach the optimal levels to keep on the dietary therapy alone. After the first month of treatment with acarbose associated to diet, we observed a further reduction of serum triglycerides levels (p = 0.02). When diet alone was administered, mean triglyceride serum levels underwent a significant enhancement (p = 0.003). Restarting for the second time the association treatment, we observed a noteworthy reduction of mean serum triglyceride levels (p = 0.0001). Acarbose acts on the pathogenesis of FH, lowering the production of endogenous triglycerides. Our data suggested that acarbose can be considered a valid therapeutic tool in the treatment of familiar hypertriglyceridemias, also in non-diabetic patients.
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PMID:Beneficial effects of acarbose on familiar hypertriglyceridemias. 972 98


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