Hypoglycemia may be mild or more severe. Though people react differently to lower than normal blood glucose levels, hypoglycemia symptoms typically start when blood glucose drops below about 70 mg/dL.4 (A normal blood glucose range for a person without diabetes is about 70 to 99 mg/dL on waking and 70 to 140 mg/dL after meals5; target ranges are usually higher for those with type 1 or type 2 diabetes, depending on a variety of factors, including risk–benefit analysis.) Some common symptoms of low blood glucose include diaphoresis, nervousness, irritability, shakiness, confusion, sleepiness, tachycardia, and lightheadedness. In many cases, mild hypoglycemia can be easily treated by eating or drinking 15 g of glucose-rich foods or liquids, such as four to five glucose tablets or 4 oz. of juice (see Table 1 4, 5).
A number of factors can make both mild and more severe hypoglycemic episodes more likely in older adults with diabetes. These factors include inadequate nutrition, irregular self-monitoring of glucose levels, increased hypoglycemia unawareness, and the effects of some diabetes medications (see Table 2 6).
Hypoglycemia unawareness. The body has mechanisms in place to respond to a drop in blood glucose. With aging, however, certain nervous system responses to hypoglycemia—including the release of stress hormones like epinephrine that cause warning symptoms such as a rapid heartbeat—may be reduced.7 When this occurs, a person may not have any physical symptoms to indicate that blood glucose is low, or may be less likely to notice symptoms. This is called hypoglycemia unawareness. While an increased risk of hypoglycemia unawareness may occur with aging, another contributing factor may be how long a person has had diabetes and how often that person has had low blood glucose.
Diabetes medications. A 2011 New England Journal of Medicine study found that two of the four medications or medication classes implicated in 67% of adverse drug reaction hospitalizations in older adults were those taken for the treatment of diabetes: insulins (13.9%) and oral hypoglycemic agents (10.7%) (the other two were warfarin and antiplatelet agents).8 According to the CDC, a majority of older Americans with diabetes take at least one diabetes medication.9 Multiple classes of oral and injectable medications are now available and widely prescribed alone or in combination to help lower blood glucose. Sulfonylureas, meglitinides, and insulin are drug classes that increase the risk of hypoglycemia. Metformin (a medication in the biguanides class) may also increase the risk of hypoglycemia when taken in combination with other diabetes medications. Insulin injections act to lower blood glucose directly. Insulin secretagogues, including long-acting sulfonylureas and the shorter-acting meglitinides, work by increasing insulin secretion in the body. Metformin decreases the amount of glucose produced by the liver and absorbed in the intestine, and increases insulin sensitivity.
As people with diabetes age, potential decreases in renal and hepatic function may influence the pharmacokinetics of drug metabolism.7 These age-related declines in renal and hepatic function may make more of a medication active or available in the body, or increase the drug's half-life. Any of these changes can increase the risk of hypoglycemia. Such changes are not based on age alone, but the risk remains.
Among the sulfonylureas, glyburide has been identified as more likely to cause dangerous hypoglycemia in older adults. This is owing to age-related decreases in hepatic function that cause the medication to remain in the body longer; the American Geriatrics Society has recommended that this medication be avoided in the older adult.10
Metformin is widely used to manage type 2 diabetes in older adults. But the declines in renal function associated with aging can contribute to the increased risk of lactic acidosis in older adults taking metformin.11 Although some guidelines use a specific serum creatinine level (at or above 1.5 mg/dL in men and at or above 1.4 mg/dL in women) to limit the use of metformin, in some instances creatinine monitoring has been replaced by the use of estimated glomerular filtration rate (eGFR).11 Guideline suggestions have recommended reducing the dosing of metformin to half the maximum dose when the eGFR is between 30 and 45 mL/min/1.73 m2. At this point, monitoring of renal function should occur every three months. Once the eGFR is below 30 mL/min/1.73 m2, stopping metformin is recommended.11
The dipeptidyl peptidase-4 inhibitors, possible alternatives to metformin because of their low risk of hypoglycemia, may require decreased dosage with renal impairment but may still be used in the older adult.7
According to the American Association of Diabetes Educators, diabetes is managed through a combination of lifestyle changes such as diet and exercise, stress management, glucose monitoring, reducing health risks, and taking medication.12 People with diabetes must juggle many facets of care daily, sometimes with help from family members. Older adults are a heterogeneous group, and must be evaluated individually. Some older adults may develop cognitive issues that will affect their ability to carry out self-care behaviors. Others may develop functional or sensory deficits that limit self-care activities.
Setting realistic, safe goals. The 2012 position statement on the management of hyperglycemia in type 2 diabetes from the American Diabetes Association (ADA) and the European Association for the Study of Diabetes offers recommendations for diabetes care in older adults based on functional status, overall health, and comorbidities.3 According to these guidelines, an HbA1c level of less than 7.5% to 8%, or even higher, may be an appropriate goal for an older adult with a history of multiple comorbidities or hypoglycemia, and a shorter life expectancy. Tighter control, with an HbA1c goal of less than 6.5% to 7%, may be more appropriate for healthy older adults with a long life expectancy. A 2012 consensus report from the ADA and the American Geriatrics Society makes similar recommendations: an HbA1c level of less than 8.5% for older adults in poor health (long-term care, end-stage chronic illnesses, or cognitive impairment) and a goal of less than 7.5% for healthy older adults.13 In all cases, it's important to consider whether these goals can be attained without undue treatment burden or risk of severe hypoglycemia. Moderate glycemic control may achieve the most relevant benefits, especially in the frail elder population. A substudy of the Action to Control Cardiovascular Risk in Diabetes (ACCORD) trial noted that although older adults in both the intensive and standard care groups were able to reach similar blood glucose targets as those reached by younger adults, they consistently experienced higher rates of hypoglycemia, with little evidence of a clinically significant cardiovascular disease benefit.14 In fact, because increased hypoglycemia risk in older ACCORD subjects was noted during early follow-up, the recruitment of additional participants 80 years of age and older was stopped.
Medication and blood glucose testing regimes that are complicated may become harder to implement for some older adults. Meal schedules need to be followed, and data such as blood glucose test results need to be interpreted and acted on. Self-care activities become especially important when a person is taking medications such as insulin secretagogues or insulin, as the risk of hypoglycemia increases when normal blood glucose levels are in the lower range or with missed meals. Loss of the ability to safely and correctly perform self-care behaviors such as meal preparation, ensuring consistent carbohydrate portions, or self-monitoring of blood glucose levels can increase the risk of hypoglycemia.
In addition, sensory changes such as loss of taste can diminish appetite and affect food intake.15 Problems with vision may affect the ability to prepare meals, use a glucose monitor, or even administer medications correctly. Dentition problems can affect food choices and intake. Any of these changes can lead to an increased risk of hypoglycemia in the older adult. Diseases that affect motor function or manual dexterity, such as arthritis or Parkinson's disease, may affect these same domains of self-care, again potentially altering glycemic levels.
Nurses are well positioned to recognize hypoglycemia in the older adult and apply their knowledge of diabetes and the aging process. Integrating aspects of diabetes care that include meal planning, medication management, self-monitoring, exercise, and other self-care activities can be a complicated process. Nurses, particularly trained diabetes educators, are able to assess each person in the context of her or his environment and overall health, taking into consideration functional and cognitive status and recognizing barriers to self-care. Educating the older adult with diabetes, as well as caregivers and family, is important in preventing hypoglycemic events and in identifying individuals at increased risk for such potentially dangerous events.
Returning to the case of Mr. J., there are several areas where nursing intervention will be important in helping him remain safely in the community while minimizing his risk of hypoglycemia.
A comprehensive assessment will determine his current diabetes knowledge and self-care skills. Evaluation of his understanding of the need for consistent carbohydrate intake and meal planning and of his ability to shop and prepare meals will indicate areas where additional education or support may be needed. Demonstration of glucose level self-monitoring and assessment of Mr. J.’s ability to explain what the results mean will help in identifying areas where review or further instruction may be needed. For example, does Mr. J. understand his pre- and postmeal glycemic targets, how results that fall above or below this range may affect him, and what blood glucose levels indicate hypoglycemic risk? According to the ADA, a one-to-two-hour postmeal target blood glucose level of less than 180 mg/dL is recommended for most people with diabetes.16 The premeal blood glucose target has been raised to 80 to 130 mg/dL, according to the most recent ADA standards of diabetes care.16
Again, these recommendations may be adjusted as part of an individualized diabetes care plan. Based on the nurse's assessment of Mr. J.’s diabetes self-management skills as well as the results of his blood glucose testing, his health care providers may order medication changes to support blood glucose control while minimizing the risk of hypoglycemia. The nurse will then be integral in helping Mr. J. implement any changes to the diabetes care plan. Assessing both his home environment (including home safety, adequate lighting, and access to cooking facilities) and his social and physical support (such as help with shopping, meal preparation, and medications) will be integral in helping to develop a plan for diabetes care that Mr. J. agrees to and can execute. In addition, if needed, a nurse can provide information about community resources for ongoing diabetes support or education through referral to an outpatient center. Mr. J. needs to understand the signs and symptoms of hypoglycemia, and how to recognize and treat them as well as how to prevent them. The nurse, looking at the big picture, may be the critical liaison between Mr. J. and his family and health care providers. Recognizing Mr. J.’s strengths and deficits, and working with Mr. J. to meet his needs, will reduce his risk of future hypoglycemic events.
3. Inzucchi SE, et al. Management of hyperglycemia in type 2 diabetes: a patient-centered approach: position statement of the American Diabetes Association (ADA) and the European Association for the Study of Diabetes (EASD) Diabetes Care. 2012;35(6):1364–79
6. Neumiller JJ, et al. Weighing the potential benefits and risks of antidiabetic agents in older adults Diabetes Spectr. 2012;25(3):172–9
7. Gates BJ, Walker KM. Physiological changes in older adults and their effect on diabetes treatment Diabetes Spectr. 2014;27(1):20–9
8. Budnitz DS, et al. Emergency hospitalizations for adverse drug events in older Americans N Engl J Med. 2011;365(21):2002–12
10. . American Geriatrics Society Beers Criteria Update Expert Panel. American Geriatrics Society updated Beers Criteria for potentially inappropriate medication use in older adults J Am Geriatr Soc. 2012;60(4):616–31
11. Lipska KJ, et al. Use of metformin in the setting of mild-to-moderate renal insufficiency Diabetes Care. 2011;34(6):1431–7
13. Kirkman MS, et al. Diabetes in older adults: a consensus report J Am Geriatr Soc. 2012;60(12):2342–56
14. Miller ME, et al. Effects of randomization to intensive glucose control on adverse events, cardiovascular disease, and mortality in older versus younger adults in the ACCORD Trial Diabetes Care. 2014;37(3):634–43
15. Stanley K. Nutrition considerations for the growing population of older adults with diabetes Diabetes Spectr. 2014;27(1):29–36
16. . American Diabetes Association. 6. Glycemic targets Diabetes Care. 2015;38(Suppl 1):S33–S40
For 31 additional continuing nursing education activities on topics related to diabetes, and for 35 on topics related to older adults, go to www.nursingcenter.com/ce.
Keywords:Copyright © 2016 Wolters Kluwer Health, Inc. All rights reserved.
diabetes; hypoglycemia; hypoglycemia unawareness; older adults; type 2 diabetes