Tag Archives: Precose
Oral agents for glucose management
Five classes of oral pharmaceutical agents for the treatment of type 2 diabetes have been approved in the United States by the Food and Drug Administration (FDA). In general, there is no clinical evidence of superiority of a particular drug over another in elderly patients. Knowledge of pharmacokinetics, side effects, and potential interactions allow for a safe use of these drugs in older patients with diabetes. Two classes of drugs, the sulfonylureas and the meglitinides improve glucose levels by stimulating insulin secretion from pancreatic β-cells. Other agents target different mechanisms in the underlying pathogenesis of the disease, such as the reduction of carbohydrate absorption (a-glucosidase inhibitors) and improvement in insulin sensitivity (biguanides and thiazolidinediones). Any of these agents may be used as first-line monotherapy since most demonstrate equivalent efficacy in improving glycemic control. When monotherapy fails, the addition of a second oral agent from a different drug class is advised to achieve fasting or postprandial glycemic targets. In general, the use of triple therapy is safe but should be used with caution because of the high risk of polypharmacy in the elderly and higher associated costs.
TABLE Noninsulin Agents for Treatment of Type 2 Diabetes
| Drug | Dosage | Efficacy (change in HbA1c) |
| Oral agents | ||
| Sulfonylureas (2nd generation) | -1 % to -2% | |
| Glimepiride (Amaryl) | 4-8 mg daily (begin 1-2 mg) | |
| Glipizide (Glucotrol) | 2.5-40 mg daily or divided | |
| (Glucotrol XL) | 5-20 mg daily | |
| Glyburide (Diapeta, Micronase) | 1.25-20 mg daily or divided | |
| Micronized glyburide (Glynase) | 1.5-12 mg daily | |
| Meglitinides | -1 % to -2% | |
| Nateglinide (Starlix) | 60-120 mg t.i.d. | |
| Repaglinide (Prandin) | 0.5 mg b.i.d.-q.i.d. if HbA1c < 8% or previously untreated | |
| 1-2 mg b.i.d.-q.i.d. if HbA1c >8% or previously treated | ||
| a-Glucosidase Inhibitors | -0.5% to-1% | |
| Acarbose(Precose) | 50-100 mg t.i.d., just before meals; start with 25 mg | |
| Miglitol (Glyset) | 25-100 mg t.i.d, with first bite of meal; start with 25 mg | |
| Biguanides | -1 % to -2% | |
| Metformin (Glucophage) | 500-2550 mg divided | |
| (Glucophage XR) | 1500-2000 mg daily | |
| Thiazolidinediones | -1 % to -2% | |
| Pioglitazone (Ados) | 15 or 30 mg daily; max 45 mg/day as monotherapy, 30 mg/day in combination therapy | |
| Rosiglitazone (Avandia) | 4 mg daily orb.i.d. | |
| Injectable agents | -0.5% to-1% | |
| Incretin mimetic | 5—10 µg s.c. b.i.d. | |
| Exenatide (Byetta) | ||
| Amylin analog | 60 µg s.c. before meals | |
| Pramlintide (Symlin) |
TABLE Mechanisms to Lower Blood Glucose by Each Antidiabetic Agent
| Correct
insulin deficiency |
Stimulate
insulin secretion |
Increase
muscle glucose uptake |
Decrease hepatic
glucose production |
Retard
carbohydrate absorption |
|
| Sulfonylureas | X | ||||
| Meglitinides | X | ||||
| Biguanides | (X) | X | |||
| Thiazolidinediones | X | (X) | |||
| Glucosidase inhibitors | X | ||||
| Incretin mimetics/amylin analogs | X | X | X | ||
| Insulin/insulin analogs | X |
Note: X, main mechanism; (X) less-clear mechanism.
Sulfonylurea preparations have a long record of safety and effectiveness. They work by stimulating insulin secretion by the pancreatic /3-cell, binding to an adenosine triphosphate-sensitive potassium channel, which results in its depolarization, a subsequent influx of intracellular calcium, and the release of insulin. Sulfonylureas are effective both as monotherapy and in combination with other agents that have different mechanisms of action. A significant percentage of patients (up to 10% per year) who are initially properly managed with sulfonylurea monotherapy lose glycemic control over time. Their main side effects include hypoglycemia and weight gain. Hypoglycemia is a serious adverse effect in the elderly and can trigger serious events such as myocardial infarction and stroke. These drugs must be used cautiously in patients with significant renal and hepatic insufficiency, since the liver is the primary site of metabolism and they are excreted by the kidneys. In these settings, the preferred option may be glipizide, whose metabolites are inactive, or glimepiride, which is substantially excreted through the bile.
A commonly used sulfonylurea in younger populations, glyburide, may have age-related impaired absorption and elimination, and elderly subjects appear to have enhanced insulin responses to the drug as well. This may explain, in part, the age-related exponential increase in the frequency of severe or fatal hypoglycemia with this drug.
TABLE Limiting Factors in the Use of Antidiabetic Agents in the Elderly
| Hypoglycemia | Weight gain | Other | |
| Sulfonylureas | X | X | May impede ischemic preconditioning |
| Meglitinides | X | X | Frequent dosing may affect compliance; no long-term experience |
| Biguanides | No | No (wt loss) | Risk of lactic acidosis; diarrhea |
| Thiazolidinediones | No | XX | Edema; expensive; no long-term experience |
| Glucosidase inhibitors | No | No | Frequent dosing may affect compliance; intestinal gas; expensive |
| Incretin mimetics/amylin analogs | No | No (wt loss) | Injection; expensive; no long-term experience |
May impede ischemic preconditioning Frequent dosing may affect compliance; no long-term experience Risk of lactic acidosis; diarrhea Edema; expensive; no long-term experience Frequent dosing may affect compliance; intestinal gas; expensive Injection; expensive; no long-term experience
Note: X, main side effect; XX, pronounced side effect. Abbreviation: wt, weight.
In addition to the type of sulfonylurea, other potential risk factors for hypoglycemia with these drugs in elderly persons include black race, multiple medications, male sex, renal dysfunction, and ethanol consumption. Sulfonylureas should be considered as first-line therapy in lean elderly patients with diabetes. The result in hemoglobin Ale (HbAlc) lowering is approximately 1% to 2% as monotherapy.
Meglitinides
Meglitinides (repaglinide and nateglinide) are nonsulfonylurea drugs that have a distinct β-cell binding profile and stimulate insulin secretion from the β-cell by a mechanism similar to that of sulfonylureas. The potential advantage of this type of drug is that it has a rapid onset and very short duration of action. Meglitinides have been associated with lower frequency of hypoglycemic events when compared with conventional sulfonylureas, presumably because of their shorter duration of action and the fact that the kinetics are not altered with age. Repaglinide lowers HbAlc by 1% to 2%, a reduction similar to that of the sulfonylureas, whereas the glucose-lowering effect of nateglinide is somewhat less potent. Similar changes in fasting glucose and HbAlc values are seen in middle-aged and elderly subjects, suggesting that there is similar efficacy in each age group. Both repaglinide and nateglinide are extensively metabolized by the liver; therefore, they should be used cautiously in patients with hepatic dysfunction. Meglitinides may be considered as an appropriate strategy for elderly patients who have irregular eating habits or have frequent hypoglycemic events on conventional sulfonylureas. These potential benefits must be balanced against the cost of these newer drugs and the compliance problems that could result from a three-times-a-day dosing schedule, particularly in patients who have impaired memory or take may other drugs.
α-Glucosidase Inhibitors
α-glucosidase inhibitors (miglitol and acarbose) impair the breakdown and limit the absorption of carbohydrates from the gut; therefore their major effect is reduction in postprandial glucose excursions. These drugs are associated with less weight gain and a lower frequency of hypoglycemia than sulfonylureas. The residual carbohydrates in the intestinal lumen cause diarrhea in about 25% of patients taking these drugs. Gradual dose titration is crucial to minimize gastrointestinal side effects and achieve better compliance. Their overall effect on HbAlc concentration is a modest reduction of 0.5% to 1%. In a recent randomized multicenter trial of the a-glucosidase inhibitor acarbose in obese elderly patients with diabetes, acarbose reduced HbAlc by about 0.8% when compared with placebo and also resulted in an improvement in insulin sensitivity. α-glucosidase inhibitors are useful drugs as primary therapy for elderly patients with modest fasting hyperglycemia, especially if they are obese. They can also be used in patients taking other oral agents to enhance glycemic control. Hypoglycemia may occur if these agents are used in combination with sulfonylureas or insulin; consequently, only glucose should be used for prompt treatment of hypoglycemia because the absorption of other carbohydrates is delayed. Acarbose has minimal systemic absorption, yet some hepatic metabolism occurs and because of rare but possible hepatotoxicity, it is contraindicated in patients with advanced liver disease. In contrast, as much as 50% to 90% of the miglitol dose may be absorbed but is not metabolized in the liver but rather eliminated through the kidney. Therefore, miglitol should not be used in patients with renal failure.
Metformin
Metformin is currently the only biguanide available in North America. Its mechanism of action is to improve insulin sensitivity, chiefly by reducing insulin resistance in the liver, thereby decreasing hepatic glucose production. In addition, its glucose-lowering effect is accompanied by a reduction in plasma insulin concentration, and some experts refer to metformin as an insulin sensitizer. Metformin lowers HbAlc by 1% to 2%. Although, the most important side effect associated with biguanides is lactic acidosis, this is rare with metformin; and aging itself does not appear to be a risk factor provided that careful attention is paid to the contraindications for this drug (significant liver, renal, and cardiac disease). Clinical studies suggest that the drug is safe and effective as monotherapy in obese older people. In our view, metformin is an ideal drug for first-line therapy of obese older patients, because it increases insulin sensitivity, assists with weight loss, reduces lipid levels, and does not cause hypoglycemia. The recently published ADA management algorithm suggests the use of metformin, together with lifestyle intervention, as initial monotherapy.
In addition, metformin is a useful adjunct for patients who are inadequately controlled on maximum doses of sulfonylureas. Metformin is contraindicated in older subjects with renal insufficiency, in men with a serum creatinine level of 1.5 mg/dL or higher or women with a serum creatinine level of 1.4 mg/dL or higher. Serum creatinine should be measured at least annually and with any increase in dose of metformin. It should be noted, however, that serum creatinine does not adequately reflect the renal function in the elderly. For those aged 80 years or older or those suspected to have reduced muscle mass, a timed urine collection for creatinine clearance should be obtained. Metformin should be avoided if the value is less than 60 mL/ min. Metformin should be temporarily discontinued during radiographic studies that use iodinated contrast agents, during acute illness, and during most hospitalizations. Clinical situations where tissue perfusion is compromised (sepsis, dehydration, pulmonary disease with hypoxemia, and acute or advanced heart failure) also contraindicate the use of metformin.
Thiazolidinediones
Thiazolidinediones (rosiglitazone and pioglitazone) improve insulin sensitivity primarily in muscles and adipocytes, thereby increasing peripheral uptake and utilization of glucose. They are generally well tolerated and appear to be as effective in older patients as in younger patients, with an approximate 1.5% reduction in HbAlc and with a dose-dependent glucose-lowering effect, which may take four to eight weeks. In addition to benefits of these drugs on cardiovascular and metabolic markers, a recent randomized trial has shown the effect of pioglitazone on the reduction of cardiovascular outcomes in patients with type 2 diabetes. Thiazolidinediones do not lead to hypoglycemia unless they are used in conjunction with secretagogues or insulin. Hepatic toxicity has not been reported in elderly subjects, but liver function tests should be monitored regularly. The incidence of edema and anemia is higher in elderly patients than in middle-aged patients treated, and volume status and blood count need to be carefully monitored. Thiazolidinediones-related fluid retention is a major contributor to increased body weight, typically manifests as peripheral edema, and develops predominantly within the first months of treatment. Thiazolidinediones can be a useful first-line therapy in obese elderly patients, particularly for those patients who cannot tolerate metformin or those who have a contraindication to it. In fact, thiazolidinediones can be safely used in patients with renal impairment provided that the cardiac function is preserved. In addition, they may be a beneficial adjunct therapy in elderly patients who have suboptimal glycemic control, despite insulin requirements of 50 or more units per day.
Acarbose
Drug Approvals
(British Approved Name, US Adopted Name, rINN)
International Nonproprietary Names (INNs) in main languages (French, Latin, and Spanish): Acarbosa; Acarbosum; Akarboosi; Akarbos; Akarbosa; Akarboz; Akarboze; Bay-g-5421.
Pharmacopoeias. In Europe and US.
European Pharmacopoeia, 6th ed. (Acarbose). A white or yellowish, amorphous, hygroscopic powder. Very soluble in water practically insoluble in dichloromethane soluble in methyl alcohol. A 5% solution in water has a pH of 5.5 to 7.5. Store in airtight containers.
The United States Pharmacopeia 31, 2008 (Acarbose). Produced by certain strains of Actinoplanes utahensis. Store in airtight containers.
Adverse Effects
Acarbose often causes gastrointestinal disturbances, particularly flatulence due to bacterial action on non-absorbed carbohydrate in the colon. Abdominal distension, diarrhoea, and pain may occur. Ileus has been rarely reported. A decrease in dosage and improved dietary habits may reduce these adverse effects. Hepatotoxicity may occur and may necessitate a reduction in dosage or withdrawal of the drug. Skin reactions have occurred rarely. Very rarely oedema has been reported.
Incidence of adverse effects. The manufacturers reported that adverse effects of acarbose were rarer in a postmarketing surveillance study than in previous clinical trials this was held to represent better tailoring of individual doses to patient tolerability.
Effects on the liver. Hepatocellular liver damage, with jaundice and elevated serum aminotransferases, have been reported in patients receiving acarbose. Symptoms resolved on stopping the drug.
Effects on the skin. Generalised erythema multiforme and eosinophilia occurred in a male diabetic patient 13 days after starting acarbose. The hypersensitivity reaction was confirmed by rechallenge.
Precautions
Acarbose is contra-indicated in inflammatory bowel disease, particularly where there is associated ulceration, and in gastrointestinal obstruction or patients predisposed to it. It should be avoided in patients with chronic intestinal diseases that significantly affect digestion or absorption, and in conditions which may deteriorate as a result of increased gas formation, such as hernia.
Acarbose is also contra-indicated in patients with hepatic impairment and liver enzyme values should be monitored, particularly at high doses. If hypoglycaemia should develop in a patient receiving acarbose it needs to be treated with glucose, since the action of acarbose inhibits the hydrolysis of disaccharides.
Breast feeding. In the absence of evidence, licensed product information recommends that acarbose should be avoided during breastfeeding.
Interactions
Acarbose may enhance the effects of other antidiabetics, including insulin, and a reduction in their dosage may be needed. Use with gastrointestinal adsorbents and digestive enzyme preparations can diminish the effects of acarbose and should be avoided. Neomycin and colestyramine may enhance the effects of acarbose and a reduction in its dosage may be required. Acarbose may inhibit the absorption of digoxin.
Pharmacokinetics
After ingestion of acarbose, the majority of active unchanged drug remains in the lumen of the gastrointestinal tract to exert its pharmacological activity and is metabolised by intestinal enzymes and by the microbial flora. Ultimately about 35% of a dose is absorbed in the form of metabolites. Acarbose is excreted in the urine and faeces.
Uses and Administration
Acarbose is an inhibitor of alpha glucosidases, especially sucrase. This slows the digestion and absorption of carbohydrates in the small intestine and hence reduces the increase in blood-glucose concentrations after a carbohydrate load. It is given in the treatment of type 2 diabetes mellitus either alone or with a sulfonylurea, biguanide, or insulin. Acarbose treatment may be started with a low oral dose of 25 or 50 mg daily to minimise gastrointestinal disturbance. It is then gradually increased to a usual dose of 25 or 50 mg three times daily, immediately before food. Doses up to 100 to 200 mg three times daily may be given if necessary. Some benefit has also been found when acarbose is used to supplement insulin therapy in type 1 diabetes mellitus.
Acarbose has also been studied for the treatment of reactive hypoglycaemia, the dumping syndrome, and certain types of hyperlipoproteinaemia.
Impaired glucose tolerance. A prospective study of patients with impaired glucose tolerance concluded that acarbose significantly reduced the incidence of cardiovascular disease and hypertension.
Preparations
Proprietary Preparations
Argentina: Glucobay
Australia: Glucobay
Austria: Glucobay
Belgium: Glucobay
Brazil: Aglucose Glucobay
Canada: Prandase
Chile: Glucobay
Czech Republic: Glucobay
Denmark: Glucobay
France: Glucor
Germany: Glucobay
Greece: Glucobay
Hong Kong: Glucobay
Hungary: Glucobay
India: Acarbay Asucrose Glubose Glucar Glucobay
Indonesia: Glucobay
Ireland: Glucobay
Israel: Prandase
Italy: Glicobase Glucobay
Malaysia: Dibose Glucar Glucobay Precose
Mexico: Glucobay Incardel Sincrosa
The Netherlands: Glucobay
Norway: Glucobay
New Zealand: Glucobay
Philippines: Glucobay Gluconase
Poland: Glucobay
Portugal: Glucobay
Russia: Glucobay (Глюкобай)
South Africa: Glucobay
Singapore: Glucobay
Spain: Glucobay Glumida
Sweden: Glucobay
Switzerland: Glucobay
Thailand: Glucobay
Turkey: Glucobay Glynose
UK: Glucobay
USA: Precose
Venezuela: Glucobay
Current Oral Antidiabetic Therapy: Alpha-Glucosidase Inhibitors
Alpha-glucosidase inhibitors also were popular in Europe prior to their introduction into the American market. At this time, they remain one of the most frequendy prescribed antidiabetic agents in Europe. Acarbose was the first agent in this class widely available in the United States. Alpha-glucosidase inhibitors act by blocking the absorption of carbohydrate from the gastrointestinal tract and are most effective in decreasing postprandial glucose elevation. The main advantage of these agents is that they act locally in the gut and are not systemic in their activity. Due to their nonsystemic activity, hypoglycemia is not associated with alpha-glucosidase inhibitors. The disadvantages, however, are greater in number.
Acarbose
Brand Name Drug: in Europe under the brand name Glucobay, in North America as Precose, and in Canada as Prandase
Acarbose and the other agents of this class have relatively weak antidiabetic activity, only reducing HgbA1C by .5%-1% in most patients. Diarrhea and flatulence are the most common side effects, occurring in up to 40% of patients in most trials. Secondary to the high incidence of gastrointestinal distress, acarbose should be initiated slowly. It comes in 50-mg and 100-mg tablets, and it is currendy recommended that patients begin with 25 mg daily taken with a meal. Afterward, it can be advanced to 25 mg with two meals and slowly increased to a maximum of 300 mg/day. Acarbose should be taken with the first bite of the meal and the most benefit is achieved with doses > 150 mg/day. It is at these higher dosages that a recent study has shown reduction of HgbA1C of 1%-2%. Unfortunately, the incidence of gastrointestinal side effects often precludes reaching these doses.
Miglitol
Brand Name Drug: Glyset
Recendy, miglitol, a new alpha-glucosidase inhibitor, was approved by the Food and Drug Administration. It reportedly has many of the gastrointestinal side effects that limit acarbose use. However, in preliminary studies, miglitol effectively lowered postprandial blood glucose and glycosylated hemoglobin levels.
Treating Obesity in Patients with type 2 Diabetes: Antidiabetic Treatments and Weight
Approximately 40% of all type 2 diabetics take a drug from the sulfonylurea class (see TABLE 2) — usually glyburide, glipizide, or chlorpropamide. The sulfonylureas cause the beta-cells of the pancreas to increase insulin secretion. Weight gain is common with sulfonylurea use and ranges from 1.8 to 2.8 kg.
|
Table 2. Antidiabetic Drugs Used to Treat Type 2 Diabetes |
|||
| Drug | Mechanism of Action | Effect on Weight During Initiation of Therapy up to One Year | Potential Side Effects |
| Sulfonylureas | Increased insulin secretion by pancreatic beta cells | 1.8 to 2.8 kg weight gain | Weight gain, hypoglycemia |
| Metformin | Decreased hepatic glucose production/enhanced glucosedisposal by skeletal muscle | 0.6 to 0.8 kg weight reduction | Abdominal bloating, nausea, cramping, diarrhea |
| Acarbose | Inhibits alpha-glucosidase and alpha-amylase | None or negligible | Flatulence, diarrhea, abdominal discomfort |
| Troglitazone | Increased glucose disposal in muscle tissue/decreased hepatic glucose production | None to 0.6 kg weight gain | Few reported (jaundice due to idiosyncratic drug reaction) |
| Insulin | Normal physiologic effects | Up to 6.0 kg weight gain | Hypoglycemia |
Metformin (Glucophage) is a biguanide antidiabetic agent that reduces basal hepatic glucose production by altering gluconeogenesis and/or glycogenolysis. Additionally, metformin decreases insulin resistance by promoting insulin-sensitive glucose uptake by muscle cells. Metformin can also reduce triglycerides and low-density lipoprotein (LDL) cholesterol, and increase high-density lipoprotein (HDL) cholesterol. Weight reductions of 0.6 to 0.8 kg have been noted in study subjects taking metformin.When metformin is combined with the sulfonylurea glyburide, however, average weight gains of 0.7 kg have been reported.
Acarbose (Precose) is an alpha-glucosidase inhibitor as well as an inhibitor of pancreatic alpha-amylase. These enzymes are responsible for the hydrolysis of oligosaccharides and related saccharides in the small intestine. Inhibition of these enzymes results in reductions in the rate and extent of carbohydrate digestion and absorption of glucose in the body. Patients treated with acarbose tend to experience no changes in weight or serum lipids.
Troglitazone (Rezulin) belongs to a new class of drugs called thiazolidinediones. It works by decreasing insulin resistance. Its primary actions involve increasing glucose disposal from the blood stream into muscle tissue and decreasing glucose production in the liver. No or very small weight changes in patients taking troglitazone are seen. Decreases in plasma triglyceride and free fatty acid levels have also been reported.
Approximately three-quarters of all the insulin used in the U.S. is taken by people with type 2 diabetes. Exogenous insulin reduces hepatic glucose production in type 2 diabetics. It also increases insulin-stimulated glucose utilization and endogenous insulin secretion. Weight gain is common in patients using insulin and may include gains up to 6.0 kg in a 12-month period.
Med Glyset: the Treatment of Type 2 Diabetes
Brand Name: Glyset
Active Ingredient: miglitol
Approved uses: Glyset is indicated as monotherapy for the treatment of non-insulin dependent diabetes mellitus as an adjunct to diet to improve glycemic control in patients whose hyperglycemia can not be controlled by diet alone. Glyset is also approved for combination therapy with a sulfonylurea.
Company Name: Pharmacia & Upjohn Inc.
Availability: Prescription only
Glyset: Introduction
Glyset (miglitol) is an oral alpha-glucosidase inhibitor that is similar to acarbose (Precose®). Glyset has not yet demonstrated hepatotoxicity, which has occurred with the use of Precose. Although Glyset was first approved by the FDA in 1996, Pharmacia & Upjohn recently acquired the rights to Glyset and launched its sale in the US.
Glyset: How It Works
Glyset is a reversible inhibitor of membrane-bound intestinal alpha-glucoside hydrolase enzymes. These enzymes hydrolyze oligosaccharides and disaccharides to glucose and other monosaccharides in the small intestine. In patients with diabetes, inhibition of this enzyme results in delayed glucose absorption and lowering of postprandial hyperglycemia. Glyset can be used in combination with sulfonylureas to enhance glycemic control.
Glyset: Clinical Study Results
Several controlled, fixed-dose studies have been conducted to demonstrate the efficacy of Glyset monotherapy. The first study was one year in duration and evaluated a combination of Glyset and a sulfonylurea, in addition to Glyset as monotherapy. The results indicated that there was a statistically smaller increase in mean glycosylated hemoglobin (HbA1c) over time in the Glyset 50 mg three times a day arm when compared to placebo. Mean fasting and postprandial plasma glucose levels as well as mean postprandial insulin levels were significantly reduced in the Glyset group in comparison to the placebo group. In a 14-week study, patients in the Glyset group had a significant decrease in HbA1c in comparison to those taking placebo. The dose of Glyset used in this study was either 50 mg 0or 100 mg three times a day. Significant decreases in postprandial plasma glucose levels and postprandial insulin levels were seen in the Glyset group.
Several studies have also examined the use of Glyset in combination with sulfonylureas. The first study was 14 weeks’ duration and enrolled patients already on maximal doses of sulfonylureas. The patients received either Glyset 50 mg or 100 mg three times a day or placebo. Patients in the Glyset group had significantly reduced HbA1c levels at the end of the study period. A second study enrolled patients on maximum doses of glyburide and added either Glyset 25 mg, 50 mg or 100 mg three times a day or placebo to the regimen. At the end of the study, patients in both of the Glyset groups had significantly reduced HbA1c levels.
Glyset: What The Patient Should Know
Glyset is contraindicated in patients with diabetic ketoacidosis, inflammatory bowel disease, colonic ulceration or partial intestinal obstruction, and in patients predisposed to intestinal obstruction. Glyset should also be avoided in patients who suffer from chronic intestinal diseases associated with marked disorders of digestion or absorption, or those with conditions that may deteriorate as a result of increased gas formation in the intestine.
Glyset should be taken three times a day at the start of each main meal with the first bite of food.
Glyset does not cause hypoglycemia when administered alone, even in the fasted state. However, sulfonylureas and insulin can lower blood sugar levels enough to cause hypoglycemia. When Glyset is given in combination with a sulfonylurea or insulin it may increase the hypoglycemic potential of these agents. It is important that the patient and other family members recognize and understand the symptoms, predisposing factors, and treatment of hypoglycemia. Because Glyset prevents the breakdown of table sugar, a source of glucose should be kept available to be administered if the patient is taking Glyset in addition to sulfonylureas and insulin.
The most common adverse effects of Glyset are primarily dose-related gastrointestinal effects including flatulence, soft stools, diarrhea, or abdominal discomfort. Side effects, if they occur, usually develop in the first few weeks of therapy and generally diminish in frequency and intensity with time.