When you think about diabetes and blood glucose control, the first thing that comes to mind is probably avoiding high blood glucose levels. After all, the hallmark of diabetes is high blood glucose, or hyperglycemia. But controlling blood glucose is more than just managing the “highs”; it also involves preventing and managing the “lows,” or hypoglycemia.
Most people are aware that keeping blood glucose levels as close to normal as possible helps prevent damage to the blood vessels and nerves in the body. But keeping blood glucose levels near normal can carry some risks as well. People who maintain “tight” blood glucose control are more likely to experience episodes of hypoglycemia, and frequent episodes of hypoglycemia — even mild hypoglycemia and even in people who don’t keep blood glucose levels close to normal — deplete the liver of stored glucose (called glycogen), which is what the body normally draws upon to raise blood glucose levels when they are low. Once liver stores of glycogen are low, severe hypoglycemia is more likely to develop, and research shows that severe hypoglycemia can be harmful. In children, frequent severe hypoglycemia can lead to impairment of intellectual function. In children and adults, severe hypoglycemia can lead to accidents. And in adults with cardiovascular disease, it can lead to strokes and heart attacks.
To keep yourself as healthy as possible, you need to learn how to balance food intake, physical activity and any diabetes medicines or insulin you use to keep your blood glucose as close to normal as is safe for you without going too low. This article explains how hypoglycemia develops and how to treat and prevent it.
Type 1 diabetes is an autoimmune disorder in which the immune system attacks and destroys the insulin-producing beta cells in the pancreas. As a result, the pancreas produces little or no insulin. Type 1 diabetes is also characterized by the presence of certain autoantibodies against insulin or other components of the insulin-producing system such as glutamic acid decarboxylase (GAD), tyrosine phosphatase, and/or islet cells.
When the body does not have enough insulin to use the glucose that is in the bloodstream for fuel, it begins breaking down fat reserves for energy. However, the breakdown of fat creates acidic by-products called ketones, which accumulate in the blood. If enough ketones accumulate in the blood, they can cause a potentially life-threatening chemical imbalance known as ketoacidosis.
Type 1 diabetes often develops in children, although it can occur at any age. Symptoms include unusual thirst, a need to urinate frequently, unexplained weight loss, blurry vision, and a feeling of being tired constantly. Such symptoms tend to be acute.
Diabetes is diagnosed in one of three ways – a fasting plasma glucose test, an oral glucose tolerance test, or a random plasma glucose test – all of which involve drawing blood to measure the amount of glucose in it.
Type 1 diabetes requires insulin treatment for survival. Treatment may also include taking other drugs to prevent kidney damage or to treat diabetes-related conditions such as high blood pressure.
Blood glucose levels vary throughout the day depending on what you eat, how active you are and any diabetes medicines or insulin you take. Other things, such as hormone fluctuations, can affect blood glucose levels as well. In people who don’t have diabetes, blood glucose levels generally range from 65 mg/dl to 140 mg/dl, but in diabetes, the body’s natural control is disrupted, and blood glucose levels can go too high or too low. For people with diabetes, a blood glucose level of 70 mg/dl or less is considered low, and treatment is recommended to prevent it from dropping even lower.
Under normal circumstances, glucose is the brain’s sole energy source, making it particularly sensitive to any decrease in blood glucose level. When blood glucose levels drop too low, the body tries to increase the amount of glucose available in the bloodstream by releasing hormones such as glucagon and epinephrine (also called adrenaline) that stimulate the release of glycogen from the liver.
Some of the symptoms of hypoglycemia are caused by the brain’s lack of glucose; other symptoms are caused by the hormones, primarily epinephrine, released to help increase blood glucose levels. Epinephrine can cause feelings of weakness, shakiness, clamminess and hunger and an increased heart rate. These are often called the “warning signs” of hypoglycemia. Lack of glucose to the brain can cause trouble concentrating, changes in vision, slurred speech, lack of coordination, headaches, dizziness and drowsiness. Hypoglycemia can also cause changes in emotions and mood. Feelings of nervousness and irritability, becoming argumentative, showing aggression and crying are common, although some people experience euphoria and giddiness. Recognizing emotional changes that may signal hypoglycemia is especially important in young children, who may not be able to understand or communicate other symptoms of hypoglycemia to adults. If hypoglycemia is not promptly treated with a form of sugar or glucose to bring blood glucose level up, the brain can become dangerously depleted of glucose, potentially causing severe confusion, seizures and loss of consciousness.
Some people are at higher risk of developing hypoglycemia than others. Hypoglycemia is not a concern for people who manage their diabetes with only exercise and a meal plan. People who use insulin or certain types of oral diabetes medicines have a much greater chance of developing hypoglycemia and therefore need to be more careful to avoid it. Other risk factors for hypoglycemia include the following:
Hypoglycemia is the most common side effect of insulin use and of some oral diabetes medicines. How likely a drug is to cause hypoglycemia and the appropriate treatment for hypoglycemia depends on the type of drug.
Secretagogues. Oral medicines that stimulate the pancreas to release more insulin, which include sulfonylureas and the drugs nateglinide (brand name Starlix) and repaglinide (Prandin), have the potential side effect of hypoglycemia. Sulfonylureas include glimepiride (Amaryl), glipizide (Glucotrol and Glucotrol XL), and glyburide (DiaBeta, Micronase, and Glynase).
Sulfonylureas are taken once or twice a day, in the morning and the evening, and their blood-glucose-lowering effects last all day. If you miss a meal or snack, the medicine continues to work, and your blood glucose level may drop too low. So-called sulfa antibiotics (those that contain the ingredient sulfamethoxazole) can also increase the risk of hypoglycemia when taken with a sulfonylurea. Anyone who takes a sulfonylurea, therefore, should discuss this potential drug interaction with their health-care provider should antibiotic therapy be necessary.
Nateglinide and repaglinide are taken with meals and act for only a short time. The risk of hypoglycemia is lower than for sulfonylureas, but it is still possible to develop hypoglycemia if a dose of nateglinide or repaglinide is taken without food.
Insulin. All people with type 1 diabetes use insulin for blood glucose control. Since insulin can cause hypoglycemia, it is important for those who use it to understand how it works and when its activity is greatest so they can properly balance food and activity and take precautions to avoid hypoglycemia. This is best discussed with a health-care provider who is knowledgeable about you, your lifestyle, and the particular insulin regimen you are using.
Biguanides and thiazolidinediones. The biguanides, of which metformin is the only one approved in the United States, decrease the amount of glucose manufactured by the liver. The thiazolidinediones, pioglitazone (Actos) and rosiglitazone (Avandia), help body cells become more sensitive to insulin. The risk of hypoglycemia is very low with these medicines. However, if you take metformin, pioglitazone, or rosiglitazone along with either insulin or a secretagogue, hypoglycemia is a possibility.
Alpha-glucosidase inhibitors. Drugs in this class, acarbose (Precose) and miglitol (Glyset), interfere with the digestion of carbohydrates to glucose and help to lower blood glucose levels after meals. When taken alone, these medicines do not cause hypoglycemia, but if combined with either insulin or a secretagogue, hypoglycemia is possible. Because alpha-glucosidase inhibitors interfere with the digestion of some types of carbohydrate, hypoglycemia can only be treated with pure glucose (also called dextrose or d-glucose), which is sold in tablets and tubes of gel. Other carbohydrates will not raise blood glucose levels quickly enough to treat hypoglycemia.
DPP-4 inhibitors, GLP-1 receptor agonists, and SGLT2 inhibitors. When taken alone, DPP-4 inhibitors, such as sitagliptin (Januvia), saxagliptin (Onglyza), linagliptin (Tradjenta), and alogliptin (Nesina); GLP-1 receptor agonists, such as exenatide (Byetta and Bydureon), liraglutide (Victoza), albiglutide (Tanzeum), semaglutide (Ozempic), lixisenatide (Adlyxin) and dulaglutide (Trulicity); and SGLT2 inhibitors, such as canagliflozin (Invokana), dapagliflozin (Farxiga), and empagliflozin (Jardiance) do not usually cause hypoglycemia. However, lows can occur when drugs in these classes are combined with a therapy that can cause hypoglycemia, such as insulin or sulfonylureas.
Although hypoglycemia is called a side effect of some of the drugs used to lower blood glucose levels, it would be more accurate to call it a potential side effect of diabetes treatment — which includes food and activity as well as drug treatment. When there is a disruption in the balance of these different components of diabetes treatment, hypoglycemia can result. The following are some examples of how that balance commonly gets disrupted:
Skipping or delaying a meal. When you take insulin or a drug that increases the amount of insulin in your system, not eating enough food at the times the insulin or drug is working can cause hypoglycemia. Learning to balance food with insulin or oral drugs is key to achieving optimal blood glucose control while avoiding hypoglycemia.
Too much diabetes medicine. If you take more than your prescribed dose of insulin (or a secretagogue for those who have type 2), there can be too much insulin circulating in your bloodstream, and hypoglycemia can occur. Changes in the timing of insulin or oral medicines can also cause hypoglycemia if your medicine and food plan are no longer properly matched.
Increase in physical activity. Physical activity and exercise lower blood glucose level by increasing insulin sensitivity. This is generally beneficial in blood glucose control, but it can increase the risk of hypoglycemia in people who use insulin or secretagogues if the exercise is very vigorous, carbohydrate intake too low, or the activity takes place at the time when the insulin or secretagogue has the greatest (peak) action. Exercise-related hypoglycemia can occur as much as 24 hours after the activity.
Increase in rate of insulin absorption. This may occur if the temperature of the skin increases due to exposure to hot water or the sun. Also, if insulin is injected into a muscle that is used in exercise soon after (such as injecting your thigh area, then jogging), the rate of absorption may increase.
Alcohol. Consuming alcohol can cause hypoglycemia in people who take insulin or a secretagogue. When the liver is metabolizing alcohol, it is less able to break down glycogen to make glucose when blood glucose levels drop. In addition to causing hypoglycemia, this can increase the severity of hypoglycemia. Alcohol can also contribute to hypoglycemia by reducing appetite and impairing thinking and judgment.
Being able to recognize hypoglycemia promptly is very important because it allows you to take steps to raise your blood glucose as quickly as possible. However, some people with diabetes don’t sense or don’t experience the early warning signs of hypoglycemia such as weakness, shakiness, clamminess, hunger, and an increase in heart rate. This is called hypoglycemia unawareness. Without these early warnings and prompt treatment, hypoglycemia can progress to confusion, which can impair your thinking and ability to treat the hypoglycemia.
If the goals you have set for your personal blood glucose control are “tight” and you are having frequent episodes of hypoglycemia, your brain may feel comfortable with these low levels and not respond with the typical warning signs. Frequent episodes of hypoglycemia can further blunt your body’s response to low blood glucose. Some drugs, such as beta-blockers (taken for high blood pressure), can also mask the symptoms of hypoglycemia.
If you have hypoglycemia frequently, you may need to raise your blood glucose targets, and you should monitor your blood glucose level more frequently and avoid alcohol. You may also need to adjust your diabetes medicines or insulin doses. Talk to your diabetes care team if you experience several episodes of hypoglycemia a week, have hypoglycemia during the night, have such low blood glucose that you require help from someone else to treat it, or find you are frequently eating snacks that you don’t want simply to avoid low blood glucose.
Anyone at risk for hypoglycemia should know how to treat it and be prepared to do so at any time. Here’s what to do: If you recognize symptoms of hypoglycemia, check your blood glucose level with your meter to make sure. While the symptoms are useful, the numbers are facts, and other situations, such as panic attacks or heart problems, can lead to similar symptoms. In some cases, people who have had chronically high blood glucose levels may experience symptoms of hypoglycemia when their blood glucose level drops to a more normal range. The usual recommendation is not to treat normal or goal-range blood glucose levels, even if symptoms are present.
Treatment is usually recommended for blood glucose levels of 70 mg/dl or less. However, this may vary among individuals. For example, blood glucose goals are lower in women with diabetes who are pregnant, so they may be advised to treat for hypoglycemia at a level below 70 mg/dl. People who have hypoglycemia unawareness, are elderly or live alone may be advised to treat at a blood glucose level somewhat higher than 70 mg/dl. Young children are often given slightly higher targets for treating hypoglycemia for safety reasons. Work with your diabetes care team to devise a plan for treating hypoglycemia that is right for you.
To treat hypoglycemia, follow the “rule of 15”: Check your blood glucose level with your meter, treat a blood glucose level under 70 mg/dl by consuming 15 grams of carbohydrate, wait about 15 minutes, then recheck your blood glucose level with your meter. If your blood glucose is still low (below 80 mg/dl), consume another 15 grams of carbohydrate and recheck 15 minutes later. You may need a small snack if your next planned meal is more than an hour away. Since blood glucose levels may begin to drop again about 40–60 minutes after treatment, it may be a good idea to recheck your blood glucose level approximately an hour after treating a low to determine if additional carbohydrate is needed.
The following items have about 15 grams of carbohydrate:
If these choices are not available, use any carbohydrate that is — for example, bread, crackers, grapes, etc. The form of carbohydrate is not important; treating the low blood glucose is. (However, many people find they are less likely to overtreat low blood glucose if they consistently treat lows with a more “medicinal” form of carbohydrate such as glucose tablets or gel.)
If you take insulin or a secretagogue and are also taking an alpha-glucosidase inhibitor (acarbose or miglitol), carbohydrate digestion and absorption is decreased, and the recommended treatment is glucose tablets or glucose gel.
Other nutrients in food such as fat or resistant starch (which is present in some diabetes snack bars) can delay glucose digestion and absorption, so foods containing these ingredients are not good choices for treating hypoglycemia.
If hypoglycemia becomes severe and a person is confused, convulsing or unconscious, treatment options include intravenous glucose administered by medical personnel or glucagon by injection given by someone trained in its use and familiar with the recipient’s diabetes history. Glucagon is a hormone that is normally produced by the pancreas and that causes the liver to release glucose into the bloodstream, raising the blood glucose level. It comes in a kit that can be used in an emergency situation (such as when a person is unable to swallow a source of glucose by mouth). The hormone is injected much like an insulin injection, usually in an area of fatty tissue, such as the stomach or back of the arms. Special precautions are necessary to ensure that the injection is given correctly and that the person receiving the injection is positioned properly prior to receiving the drug. People at higher risk of developing hypoglycemia should discuss the use of glucagon with their diabetes educator, doctor or pharmacist.
Avoiding all episodes of hypoglycemia may be impossible for many people, especially since maintaining tight blood glucose control brings with it a higher risk of hypoglycemia. However, the following tips may help to prevent excessive lows:
Although hypoglycemia can, at times, be unpleasant, don’t risk your health by allowing your blood glucose levels to run higher than recommended to avoid it. Meet with your diabetes care team to develop a plan to help you achieve the best possible blood glucose control safely and effectively. Think positive, and learn to be prepared with measures to prevent and promptly treat hypoglycemia should it occur.
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