Medications

Side Effects. Thiazolidinediones can have serious side effects. They tend to increase fluid-build up, which can cause or worsen heart failure in some patients. Combinations with insulin increase the risk. They should not be used by patients with existing heart failure and should be used cautiously in those with risk factors for heart failure. They may cause more weight gain than other antidiabetic medications or insulin. Any patient who experiences sudden weight gain, water retention, or shortness of breath should immediately call their doctors.

There have been rare reports of rosiglitazone causing or worsening diabetic macular edema. This is an eye condition associated with diabetic retinopathy that causes swelling in the macular area of the retina. Symptoms include blurred vision and decreased color sensitivity. Most patients who had this side effect also had swelling in the feet and legs (peripheral edema). The condition resolved or improved when patients stopped taking the drug.

Thiazolidinediones can also cause liver damage. Patients who take these drugs should have their liver enzymes checked regularly.

Alpha-Glucosidase Inhibitors

Alpha-glucosidase inhibitors, including acarbose (Precose, Glucobay) and miglitol (Glyset) reduce glucose levels by interfering with the absorption of starch in the small intestine. Acarbose tends to lower insulin levels after meals, a particular advantage, since higher levels of insulin after meals are associated with an increased risk for heart disease. Some evidence suggests that early use of these drugs may reduce heart risk factors, including high blood pressure. A 2002 study of acarbose suggested that these drugs may even delay the development of type 2 diabetes in high-risk individuals. Alpha-glucosidase inhibitors are not as effective alone as other single oral drugs, but combinations, such as with metformin, insulin, or a sulfonylurea, increase their effectiveness.

Side Effects. These medications need to be taken with meals. Unfortunately, about a third of patients stop taking the drug because of flatulence and diarrhea, particularly after high-carbohydrate meals. The drug may also interfere with iron absorption.

Alpha-glucosidase inhibitors do not cause hypoglycemia when used alone, but combinations with other drugs do. In such cases, it is important that the patient receive a solution that contains glucose or lactose, not table sugar. This is because acarbose inhibits the breakdown of complex sugar and starches, which includes table sugar.

Incretin Mimetics (Exenatide)

Incretin mimetics belong to a new class of drugs that help improve blood sugar control. In 2005, the FDA approved exenatide (Byetta), the first of these drugs. Exenatide is an injectable drug that is a synthetic version of the hormone found in the saliva of the Gila monster, a venomous desert lizard. Exenatide is injected twice a day, 1 hour before morning and evening meals. It is prescribed for patients with type 2 diabetes who have not been able to control their glucose with metformin or a sulfonylurea drug. It can be taken in combination with these drugs or alone.

Side Effects. Exenatide stimulates insulin secretion only when blood sugar levels are high and so has less risk for causing low blood sugar (hypoglycemia) when it is taken alone. However, the risk for hypoglycemia increases when exenatide is taken along with a sulfonylurea drug. There does not appear to be a risk for hypoglycemia when exenatide is used along with metformin. Other side effects may include nausea, vomiting, and diarrhea.

A 2005 study compared exenatide to insulin for improving glucose control in patients taking metformin and a sulfonylurea. Both insulin and exenatide worked well for glucose control. Patients lost weight with exenatide and gained weight with insulin. However, patients who received exenatide had significantly more problems with nausea, vomiting, and diarrhea than those who received insulin.

Insulin Replacement

Insulin replacement is the best treatment for strict control of blood glucose and is required once natural insulin reserves are depleted. Because type 2 diabetes is progressive, most patients eventually require insulin, typically starting it in combination with an oral anti-hyperglycemic drug. However, when a single oral drug fails to control blood sugar it is not clear whether it is better to add insulin replacement or to add a second or third oral drug.

Some experts advocate using insulin as early as possible for optimal control. However, in patients who still have insulin reserves, there is concern that extra natural insulin will have adverse effects. Low blood sugar (hypoglycemia) and weight gain are the main side effects of insulin therapy. Some research suggests that insulin may also cause heart complications. A 2006 study reported that insulin therapy increases the risk of developing high blood pressure (hypertension). It is still not clear if insulin replacement improves survival rates compared to oral drugs, notably metformin.

One approach is to combine insulin with metformin, which achieves blood glucose control without added weight gain. Newer forms of insulin analogues, such as glargine, may be especially helpful for people with type 2 diabetes and reduce the risk for hypoglycemia.

Fortunately, studies to date have not reported any adverse cardiac effects in patients with type 2 diabetes who take insulin. In fact, insulin has been associated, in some cases, with improvement in heart risk factors. More research is needed to clarify these important issues.

Forms of Insulin. Experts are working toward administering insulin so that it closely mimics the daily pattern of insulin, which responds to blood sugar levels by surging after meals and then falling to a steady base level afterward. To achieve this, doctors may use two insulin types:

• Fast-Acting Insulins for Surges. Insulin lispro and aspart are fast-acting insulins. They mimic insulin's response to food intake. They are taken before meals, and their short action reduces the risk for hypoglycemia afterward.
• Slower Insulins for Base Levels. Intermediate forms (including NPH and lente) and long-acting forms (glargine, ultralente) were developed to provide a steady level of insulin throughout the day. To date, glargine (Lantus) seems to be the most successful in achieving this goal in type 2 diabetes.

In 2006, the FDA approved the first non-injected form of insulin. Exubera is an inhaled form of insulin. It is approved for adults but should not be used by patients who smoke or have quit smoking within the past 6 months. Patients with asthma, bronchitis, or emphysema should also not use inhaled insulin. Clinical trials indicate that Exubera can provide sustained blood sugar control over a 2-year period. Patients in the trials who took Exubera experienced half as much weight gain as those who took injected insulin. Scientists are also developing other types of non-injected insulin, including spray formulas.

In a 2005 trial, Exubera improved blood sugar control when it was added to or substituted for combination oral drug therapy (sulphonylurea and thiazolidenedione). However, as with other forms of insulin, Exubera caused more hypoglycemia and weight gain than the oral anti-hyperglycemic drugs.

Pramlintide (Symlin) is a new type of injectable drug that may help patients who take insulin but still need better blood sugar control. The FDA approved this drug in 2005. Pramlintide is a synthetic form of amylin, a hormone that is related to insulin. Pramlintide is used in combination with insulin to lower blood sugar levels in the 3 hours after meals.

[For more detailed information on insulin therapy, see In-Depth Report #9: Diabetes - type 1.]

Investigational Drugs

Gliptins. Gliptins are a new class of drug that is showing promise for improving blood sugar control. These drugs raise the levels of glucagons-like-peptide-1 (GLP-1), a hormone that helps the pancreas produce more insulin but prevents the liver from producing sugar. Scientists hope that gliptins may eventually replace sulfonylurea drugs. Several types of gliptins are currently in late-stage clinical trials. Vildagliptin (Galvus) and sitagliptin (Januvia) are classified as dipeptidyl peptidase-4 (DPP-4) inhibitors. Liraglutide is a GLP-1 analog. Researchers are investigating these drugs in combination with metformin or thiazolidinediones.