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Lifestyle management is a fundamental aspect of diabetes care and includes diabetes self-management education (DSME), diabetes self-management support (DSMS), nutrition therapy, physical activity, smoking cessation counseling, and psychosocial care. Patients and care providers should focus together on how to optimize lifestyle from the time of the initial comprehensive medical evaluation, throughout all subsequent evaluations and follow-up, and during the assessment of complications and management of comorbid conditions in order to enhance diabetes care.
In accordance with the national standards for diabetes self-management education and support, all people with diabetes should participate in diabetes self-management education to facilitate the knowledge, skills, and ability necessary for diabetes self-care and in diabetes self-management support to assist with implementing and sustaining skills and behaviors needed for ongoing self-management, both at diagnosis and as needed thereafter. B
Effective self-management and improved clinical outcomes, health status, and quality of life are key goals of diabetes self-management education and support that should be measured and monitored as part of routine care. C
Diabetes self-management education and support should be patient centered, respectful, and responsive to individual patient preferences, needs, and values and should help guide clinical decisions. A
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Because diabetes self-management education and support can improve outcomes and reduce costs B, diabetes self-management education and support should be adequately reimbursed by third-party payers. E
DSME and DSMS programs facilitate the knowledge, skills, and abilities necessary for optimal diabetes self-care and incorporate the needs, goals, and life experiences of the person with diabetes. The overall objectives of DSME and DSMS are to support informed decision making, self-care behaviors, problem solving, and active collaboration with the health care team to improve clinical outcomes, health status, and quality of life in a cost-effective manner (1). Providers should consider the burden of treatment and the patient’s level of confidence/self-efficacy for management behaviors as well as the level of social and family support when providing DSME or DSMS. Monitor patient performance of self-management behaviors as well as psychosocial factors impacting the person’s self-management.
DSME and DSMS, and the current national standards guiding them (1,2), are based on evidence of their benefits. Specifically, DSME helps people with diabetes to identify and implement effective self-management strategies and cope with diabetes at the four critical time points (described below) (1). Ongoing DSMS helps people with diabetes to maintain effective self-management throughout a lifetime of diabetes as they face new challenges and as advances in treatment become available (3).
Four critical time points have been defined when the need for DSME and DSMS should be evaluated by the medical care provider and/or multidisciplinary team, with referrals made as needed (1):
1. At diagnosis
2. Annually for assessment of education, nutrition, and emotional needs
3. When new complicating factors (health conditions, physical limitations, emotional factors, or basic living needs) arise that influence self-management
4. When transitions in care occur
DSME focuses on supporting patient empowerment by providing people with diabetes the tools to make informed self-management decisions (4). Diabetes care has shifted to an approach that is more patient centered and places the person with diabetes and his or her family at the center of the care model, working in collaboration with health care professionals. Patient-centered care is respectful of and responsive to individual patient preferences, needs, and values. It ensures that patient values guide all decision making (5).
Studies have found that DSME is associated with improved diabetes knowledge and self-care behaviors (2), lower A1C (6–9), lower self-reported weight (10,11), improved quality of life (8,12), healthy coping (13,14), and reduced health care costs (15,16). Better outcomes were reported for DSME interventions that were over 10 h in total duration, included follow-up with DSMS (3,17), were culturally (18,19) and age appropriate (20,21), were tailored to individual needs and preferences, and addressed psychosocial issues and incorporated behavioral strategies (4,13,22,23). Individual and group approaches are effective (11,24). Emerging evidence is pointing to the benefit of Internet-based DSME programs for diabetes prevention and the management of type 2 diabetes (25,26). There is growing evidence for the role of community health workers (27), as well as peer (27–29) and lay (30) leaders, in providing ongoing support.
DSME is associated with an increased use of primary care and preventive services (15,31,32) and less frequent use of acute care and inpatient hospital services (10). Patients who participate in DSME are more likely to follow best practice treatment recommendations, particularly among the Medicare population, and have lower Medicare and insurance claim costs (16,31). Despite these benefits, reports indicate that only 5–7% of individuals eligible for DSME through Medicare or a private insurance plan actually receive it (33,34). This low participation may be due to lack of referral or other identified barriers such as logistical issues (timing, costs) and the lack of a perceived benefit (35). Thus, alternative and innovative models of DSME delivery need to be explored and evaluated.
Medicare reimburses DSME and DSMS, when provided by a program that meets the national standards (2) and is recognized by the American Diabetes Association (ADA) or other approval bodies. DSME is also covered by most health insurance plans. DSMS has been shown to be instrumental for improving outcomes when it follows the completion of a DSME program. DSME and DSMS are frequently reimbursed when performed in person. However, although DSME and DSMS can also be provided via phone calls and telehealth, these remote versions may not always be reimbursed.
For many individuals with diabetes, the most challenging part of the treatment plan is determining what to eat and following a food plan. There is not a one-size-fits-all eating pattern for individuals with diabetes. Nutrition therapy has an integral role in overall diabetes management, and each person with diabetes should be actively engaged in education, self-management, and treatment planning with his or her health care team, including the collaborative development of an individualized eating plan (36,37). All individuals with diabetes should receive individualized medical nutrition therapy (MNT), preferably provided by a registered dietitian who is knowledgeable and skilled in providing diabetes-specific MNT. MNT delivered by a registered dietitian is associated with A1C decreases of 0.3–1% for people with type 1 diabetes (38–40) and 0.5–2% for people with type 2 diabetes (41–44).
reverses diabetes type 2 herbs (⭐️ treatments vinegar) | reverses diabetes type 2 testhow to reverses diabetes type 2 for It is important that each member of the health care team be knowledgeable about nutrition therapy principles for people with all types of diabetes and be supportive of their implementation. Emphasis should be on healthful eating patterns containing nutrient-dense, high-quality foods with less focus on specific nutrients. The Mediterranean (45), Dietary Approaches to Stop Hypertension (DASH) (46,47), and plant-based diets (48) are all examples of healthful eating patterns. See Table 4.1 for specific nutrition recommendations.
For complete discussion and references, see the ADA position statement “Nutrition Therapy Recommendations for the Management of Adults With Diabetes” (37).
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○ Achieve and maintain the 1 last update 27 May 2020 body weight goals○ Achieve and maintain body weight goals
○ Attain individualized glycemic, blood pressure, and lipid goals
○ Delay or prevent the complications of diabetes
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To maintain the pleasure of eating by providing nonjudgmental messages about food choices
To provide an individual with diabetes the practical tools for developing healthy eating patterns rather than focusing on individual macronutrients, micronutrients, or single foods
Body weight management is important for overweight and obese people with type 1 and type 2 diabetes. Lifestyle intervention programs should be intensive and have frequent follow-up to achieve significant reductions in excess body weight and improve clinical indicators. There is strong and consistent evidence that modest persistent weight loss can delay the progression from prediabetes to type 2 diabetes (49,50) and is beneficial to the management of type 2 diabetes (see Section 7 “Obesity Management for the Treatment of Type 2 Diabetes”).
In overweight and obese patients with type 2 diabetes, modest weight loss, defined as sustained reduction of 5% of initial body weight, has been shown to improve glycemic control and to reduce the need for glucose-lowering medications (51–53). Sustaining weight loss can be challenging (54). Weight loss can be attained with lifestyle programs that achieve a 500–750 kcal/day energy deficit or provide ∼1,200–1,500 kcal/day for women and 1,500–1,800 kcal/day for men, adjusted for the individual’s baseline body weight. For many obese individuals with type 2 diabetes, weight loss >5% is needed to produce beneficial outcomes in glycemic control, lipids, and blood pressure, and sustained weight loss of ≥7% is optimal (54).
The diets used in intensive lifestyle management for weight loss may differ in the types of foods they restrict (e.g., high-fat vs. high-carbohydrate foods), but their emphasis should be on nutrient-dense foods, such as whole grains, vegetables, fruits, legumes, low-fat dairy, lean meats, nuts, and seeds, as well as on achieving the desired energy deficit (55–58). The diet choice should be based on the patients’ health status and preferences.
Studies examining the ideal amount of carbohydrate intake for people with diabetes are inconclusive, although monitoring carbohydrate intake and considering the blood glucose response to dietary carbohydrate are key for improving postprandial glucose control (59,60). The literature concerning glycemic index and glycemic load in individuals with diabetes is complex, though in some studies lowering the glycemic load of consumed carbohydrates has demonstrated A1C reductions of –0.2% to –0.5% (61,62). A systematic review (61) found that whole-grain consumption was not associated with improvements in glycemic control in type 2 diabetes. One study did find a potential benefit of whole-grain intake in reducing mortality and cardiovascular disease (CVD) among individuals with type 2 diabetes (63).
As for all Americans, individuals with diabetes should be encouraged to replace refined carbohydrates and added sugars with whole grains, legumes, vegetables, and fruits. The consumption of sugar-sweetened beverages and processed “low-fat” or “nonfat” food products with high amounts of refined grains and added sugars should be strongly discouraged (64).
Individuals with type 1 or type 2 diabetes taking insulin at mealtimes should be offered intensive education on the need to couple insulin administration with carbohydrate intake. For people whose meal schedules or carbohydrate consumption is variable, regular counseling to help them understand the complex relationship between carbohydrate intake and insulin needs is important. In addition, education regarding the carbohydrate-counting approach to meal planning can assist them with effectively modifying insulin dosing from meal to meal and improving glycemic control (39,59,65–67). Individuals who consume meals containing more protein and fat than usual may also need to make mealtime insulin dose adjustments to compensate for delayed postprandial glycemic excursions (68,69). For individuals on a fixed daily insulin schedule, meal planning should emphasize a relatively fixed carbohydrate consumption pattern with respect to both time and amount (37). By contrast, a simpler diabetes meal planning approach emphasizing portion control and healthful food choices may be better suited for some elderly individuals, those with cognitive dysfunction, and those for whom there are concerns over health literacy and numeracy (37–39,41,59,65). The modified plate method (which uses measuring cups to assist with portion measurement) may be an effective alternative to carbohydrate counting for some patients in improving glycemia (70).
There is no evidence that adjusting the daily level of protein ingestion (typically 1–1.5 g/kg body weight/day or 15–20% total calories) will improve health in individuals without diabetic kidney disease, and research is inconclusive regarding the ideal amount of dietary protein to optimize either glycemic control or CVD risk (61). Therefore, protein intake goals should be individualized based on current eating patterns. Some research has found successful management of type 2 diabetes with meal plans including slightly higher levels of protein (20–30%), which may contribute to increased satiety (47).
For those with diabetic kidney disease (with albuminuria and/or reduced estimated glomerular filtration rate), dietary protein should be maintained at the recommended daily allowance of 0.8 g/kg body weight/day. Reducing the amount of dietary protein below the recommended daily allowance is not recommended because it does not alter glycemic measures, cardiovascular risk measures, or the rate at which glomerular filtration rate declines (71,72).
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The ideal amount of dietary fat for individuals with diabetes is controversial. The Institute of Medicine has defined an acceptable macronutrient distribution for total fat for all adults to be 20–35% of energy (74). The type of fats consumed is more important than total amount of fat when looking at metabolic goals and CVD risk (64,75–78). Multiple randomized controlled trials including patients with type 2 diabetes have reported that a Mediterranean-style eating pattern (75,79–82), rich in monounsaturated fats, can improve both glycemic control and blood lipids. However, supplements do not seem to have the same effects. A systematic review concluded that dietary supplements with ω-3 fatty acids did not improve glycemic control in individuals with type 2 diabetes (61). Randomized controlled trials also do not support recommending ω-3 supplements for primary or secondary prevention of CVD (83–87). People with diabetes should be advised to follow the guidelines for the general population for the recommended intakes of saturated fat, dietary cholesterol, and trans fat (64). In general, trans fats should be avoided.
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There continues to be no clear evidence of benefit from herbal or nonherbal (i.e., vitamin or mineral) supplementation for people with diabetes without underlying deficiencies (37). Metformin is associated with vitamin B12 deficiency, with a recent report from the Diabetes Prevention Program Outcomes Study (DPPOS) suggesting that periodic testing of vitamin B12 levels should be considered in metformin-treated patients, particularly in those with anemia or peripheral neuropathy (92). Routine supplementation with antioxidants, such as vitamins E and C and carotene, is not advised because of lack of evidence of efficacy and concern related to long-term safety. In addition, there is insufficient evidence to support the routine use of herbals and micronutrients, such as cinnamon (93) and vitamin D (94), to improve glycemic control in people with diabetes (37,95).
Moderate alcohol consumption does not have major detrimental effects on long-term blood glucose control in people with diabetes. Risks associated with alcohol consumption include hypoglycemia (particularly for those using insulin or insulin secretagogue therapies), weight gain, and hyperglycemia (for those consuming excessive amounts) (37,95).
For people who are accustomed to sugar-sweetened products, nonnutritive sweeteners have the potential to reduce overall calorie and carbohydrate intake and may be preferred to sugar when consumed in moderation. Regulatory agencies set for 1 last update 27 May 2020 acceptable daily intake levels for each nonnutritive sweetener, defined as the amount that can be safely consumed over a person’s lifetime (37,96).For people who are accustomed to sugar-sweetened products, nonnutritive sweeteners have the potential to reduce overall calorie and carbohydrate intake and may be preferred to sugar when consumed in moderation. Regulatory agencies set acceptable daily intake levels for each nonnutritive sweetener, defined as the amount that can be safely consumed over a person’s lifetime (37,96).
Children and adolescents with the 1 last update 27 May 2020 type 1 or type 2 diabetes or prediabetes should engage in 60 min/day or more of moderate- or vigorous-intensity aerobic activity, with vigorous muscle-strengthening and bone-strengthening activities at least 3 days/week. CChildren and adolescents with type 1 or type 2 diabetes or prediabetes should engage in 60 min/day or more of moderate- or vigorous-intensity aerobic activity, with vigorous muscle-strengthening and bone-strengthening activities at least 3 days/week. C
Most adults with with type 1 C and type 2 B diabetes should engage in 150 min or more of moderate-to-vigorous intensity physical activity per week, spread over at least 3 days/week, with no more than 2 consecutive days without activity. Shorter durations (minimum 75 min/week) of vigorous-intensity or interval training may be sufficient for younger and more physically fit individuals.
Adults with type 1 C and type 2 B diabetes should engage in 2–3 sessions/week of resistance exercise on nonconsecutive days.
All adults, and particularly those with type 2 diabetes, should decrease the amount of time spent in daily sedentary behavior. B Prolonged sitting should be interrupted every 30 min for blood glucose benefits, particularly in adults with type 2 diabetes. C
Flexibility training and balance training are recommended 2–3 times/week for older adults with diabetes. Yoga and tai chi may be included based on individual preferences to increase flexibility, muscular strength, and balance. C
Physical activity is a general term that includes all movement that increases energy use and is an important part of the diabetes management plan. Exercise is a more specific form of physical activity that is structured and designed to improve physical fitness. Both physical activity and exercise are important. Exercise has been shown to improve blood glucose control, reduce cardiovascular risk factors, contribute to weight loss, and improve well-being. Physical activity is as important for those with type 1 diabetes as it is for the general population, but its specific role in the prevention of diabetes complications and the management of blood glucose is not as clear as it is for those with type 2 diabetes.
Structured exercise interventions of at least 8 weeks’ duration have been shown to lower A1C by an average of 0.66% in people with type 2 diabetes, even without a significant change in BMI (97). There are also considerable data for the health benefits (e.g., increased cardiovascular fitness, greater muscle strength, improved insulin sensitivity, etc.) of regular exercise for those with type 1 diabetes (98). Higher levels of exercise intensity are associated with greater improvements in A1C and in fitness (99). Other benefits include slowing the decline in mobility among overweight patients with diabetes (100). The ADA position statement “Physical Activity/Exercise and Diabetes: A Position Statement of the American Diabetes Association” reviews the evidence for the benefits of exercise in people with diabetes (101).
All children, including children with diabetes or prediabetes, should be encouraged to engage in at least 60 min of physical activity each day. Children should engage in at least 60 min of moderate-to-vigorous aerobic activity every day with muscle- and bone-strengthening activities at least 3 days per week (102). In general, youth with type 1 diabetes benefit from being physically active, and an active lifestyle should be recommended to all.
The U.S. Department of Health and Human Services’ physical activity guidelines for Americans (103) suggest that adults over age 18 years engage in 150 min/week of moderate-intensity or 75 min/week of vigorous-intensity aerobic physical activity, or an equivalent combination of the two. In addition, the guidelines suggest that adults do muscle-strengthening activities that involve all major muscle groups 2 or more days/week. The guidelines suggest that adults over age 65 years and those with disabilities follow the adult guidelines if possible or, if not possible, be as physically active as they are able.
Recent evidence supports that all individuals, including those with diabetes, should be encouraged to reduce the amount of time spent being sedentary (e.g., working at a computer, watching TV), by breaking up bouts of sedentary activity (>30 min) by briefly standing, walking, or performing at other light physical activities (104,105). Avoiding extended sedentary periods may help prevent type 2 diabetes for those at risk and may also aid in glycemic control for those with diabetes.
Clinical trials have provided strong evidence for the A1C-lowering value of resistance training in older adults with type 2 diabetes (106) and for an additive benefit of combined aerobic and resistance exercise in adults with type 2 diabetes (107). If not contraindicated, patients with type 2 diabetes should be encouraged to do at least two weekly sessions of resistance exercise (exercise with free weights or weight machines), with each session consisting of at least one set (group of consecutive repetitive exercise motions) of five or more different resistance exercises involving the large muscle groups (106).
For type 1 diabetes, although exercise in general is associated with improvement in disease status, care needs to be taken in titrating exercise with respect to glycemic management. Each individual with type 1 diabetes has a variable glycemic response to exercise. This variability should be taken into consideration when recommending the type and duration of exercise for a given individual (98).
Women with preexisting diabetes, particularly type 2 diabetes, and those at risk for or presenting with gestational diabetes mellitus should be advised to engage in regular moderate physical activity prior to and during their pregnancies as tolerated (101).
As discussed more fully in Section 9 “Cardiovascular Disease and Risk Management,” the best protocol for assessing asymptomatic patients with diabetes for coronary artery disease remains unclear. The ADA consensus report “Screening for Coronary Artery Disease in Patients With Diabetes” (108) concluded that routine testing is not recommended. However, providers should perform a careful history, assess cardiovascular risk factors, and be aware of the atypical presentation of coronary artery disease in patients with diabetes. Certainly, high-risk patients should be encouraged to start with short periods of low-intensity exercise and slowly increase the intensity and duration. Providers should assess patients for conditions that might contraindicate certain types of exercise or predispose to injury, such as uncontrolled hypertension, untreated proliferative retinopathy, autonomic neuropathy, peripheral neuropathy, and a history of foot ulcers or Charcot foot. The patient’s age and previous physical activity level should be considered. The provider should customize the exercise regimen to the individual’s needs. Those with complications may require a more thorough evaluation (98).
In individuals taking insulin and/or insulin secretagogues, physical activity may cause hypoglycemia if the medication dose or carbohydrate consumption is not altered. Individuals on these therapies may need to ingest some added carbohydrate if pre-exercise glucose levels are <100 mg/dL (5.6 mmol/L), depending on whether they can lower insulin levels during the workout (such as with an insulin pump or reduced pre-exercise insulin dosage), the time of day exercise is done, and the intensity and duration of the activity (98,101). Hypoglycemia is less common in patients with diabetes who are not treated with insulin or insulin secretagogues, and no routine preventive measures for hypoglycemia are usually advised in these cases. In some patients, hypoglycemia after exercise may occur and last for several hours due to increased insulin sensitivity. Intense activities may actually raise blood glucose levels instead of lowering them, especially if pre-exercise glucose levels are elevated (109).
If proliferative diabetic retinopathy or severe nonproliferative diabetic retinopathy is present, then vigorous-intensity aerobic or resistance exercise may be contraindicated because of the risk of triggering vitreous hemorrhage or retinal detachment (110). Consultation with an ophthalmologist prior to engaging in an intense exercise regimen may be appropriate.
Decreased pain sensation and a higher pain threshold in the extremities result in an increased risk of skin breakdown, infection, and Charcot joint destruction with some forms of exercise. Therefore, a thorough assessment should be done to ensure that neuropathy does not alter kinesthetic or proprioceptive sensation during physical activity, particularly in those with more severe neuropathy. Studies have shown that moderate-intensity walking may not lead to an increased risk of foot ulcers or reulceration in those with peripheral neuropathy who use proper footwear (111). In addition, 150 min/week of moderate exercise was reported to improve outcomes in patients with prediabetic neuropathy (112). All individuals with peripheral neuropathy should wear proper footwear and examine their feet daily to detect lesions early. Anyone with a foot injury or open sore should be restricted to non–weight-bearing activities.
Autonomic neuropathy can increase the risk of exercise-induced injury or adverse events through decreased cardiac responsiveness to exercise, postural hypotension, impaired thermoregulation, impaired night vision due to impaired papillary reaction, and greater susceptibility to hypoglycemia (113). Cardiovascular autonomic neuropathy is also an independent risk factor for cardiovascular death and silent myocardial ischemia (114). Therefore, individuals with diabetic autonomic neuropathy should undergo cardiac investigation before beginning physical activity more intense than that to which they are accustomed.
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Advise all patients not to use cigarettes and other tobacco products A or e-cigarettes. E
Include smoking cessation counseling and other forms of treatment as a routine component of diabetes care. B
Results from the 1 last update 27 May 2020 epidemiological, case-control, and cohort studies provide convincing evidence to support the causal link between cigarette smoking and health risks (115). Recent data show tobacco use is higher among adults with chronic conditions (116). Other studies of individuals with diabetes consistently demonstrate that smokers (and people exposed to secondhand smoke) have a heightened risk of CVD, premature death, and microvascular complications. Smoking may have a role in the development of type 2 diabetes (117). One study in smokers with newly diagnosed type 2 diabetes found that smoking cessation was associated with amelioration of metabolic parameters and reduced blood pressure and albuminuria at 1 year (118).Results from epidemiological, case-control, and cohort studies provide convincing evidence to support the causal link between cigarette smoking and health risks (115). Recent data show tobacco use is higher among adults with chronic conditions (116). Other studies of individuals with diabetes consistently demonstrate that smokers (and people exposed to secondhand smoke) have a heightened risk of CVD, premature death, and microvascular complications. Smoking may have a role in the development of type 2 diabetes (117). One study in smokers with newly diagnosed type 2 diabetes found that smoking cessation was associated with amelioration of metabolic parameters and reduced blood pressure and albuminuria at 1 year (118).
The routine and thorough assessment of tobacco use is essential to prevent smoking or encourage cessation. Numerous large randomized clinical trials have demonstrated the efficacy and cost-effectiveness of brief counseling in smoking cessation, including the use of telephone quit lines, in reducing tobacco use. For the patient motivated to quit, the addition of pharmacological therapy to counseling is more effective than either treatment alone. Special considerations should include assessment of level of nicotine dependence, which is associated with difficulty in quitting and relapse (119). Although some patients may gain weight in the period shortly after smoking cessation, recent research has demonstrated that this weight gain does not diminish the substantial CVD benefit realized from smoking cessation (120).
Nonsmokers should be advised not to use e-cigarettes. There are no rigorous studies that have demonstrated that e-cigarettes are a healthier alternative to smoking or that e-cigarettes can facilitate smoking cessation. More extensive research of their short- and long-term effects is needed to determine their safety and their cardiopulmonary effects in comparison with smoking and standard approaches to smoking cessation (121–123).
Psychosocial care should be integrated with a collaborative, patient-centered approach and provided to all people with diabetes, with the goals of optimizing health outcomes and health-related quality of life. A
Psychosocial screening and follow-up may include, but are not limited to, attitudes about the illness, expectations for medical management and outcomes, affect or mood, general and diabetes-related quality of life, available resources (financial, social, and emotional), and psychiatric history. E
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Consider screening older adults (aged ≥65 years) with diabetes for cognitive impairment and depression. B
Please refer to the ADA position statement “Psychosocial Care for People with Diabetes” for a list of assessment tools and additional details (124).
Emotional well-being is an important part of diabetes care and self-management. Psychological and social problems can impair the individual’s (125–127) or family’s (128) ability to carry out diabetes care tasks and therefore potentially compromise health status. There for 1 last update 27 May 2020 are opportunities for the clinician to routinely assess psychosocial status in a timely and efficient manner for referral to appropriate services. A systematic review and meta-analysis showed that psychosocial interventions modestly but significantly improved A1C (standardized mean difference –0.29%) and mental health outcomes (129). However, there was a limited association between the effects on A1C and mental health, and no intervention characteristics predicted benefit on both outcomes.Emotional well-being is an important part of diabetes care and self-management. Psychological and social problems can impair the individual’s (125–127) or family’s (128) ability to carry out diabetes care tasks and therefore potentially compromise health status. There are opportunities for the clinician to routinely assess psychosocial status in a timely and efficient manner for referral to appropriate services. A systematic review and meta-analysis showed that psychosocial interventions modestly but significantly improved A1C (standardized mean difference –0.29%) and mental health outcomes (129). However, there was a limited association between the effects on A1C and mental health, and no intervention characteristics predicted benefit on both outcomes.
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Providers can start with informal verbal inquires, for example, by asking if there have been changes in mood during the past 2 weeks or since their last visit. Providers should consider asking if there are new or different barriers to treatment and self-management, such as feeling overwhelmed or stressed by diabetes or other life stressors. Standardized and validated tools for psychosocial monitoring and assessment can also be used by providers, with positive findings leading to referral to a mental health provider specializing in diabetes for comprehensive evaluation, diagnosis, and treatment.
Routinely monitor people with diabetes for diabetes distress, particularly when treatment targets are not met and/or at the onset the 1 last update 27 May 2020 of diabetes complications. BRoutinely monitor people with diabetes for diabetes distress, particularly when treatment targets are not met and/or at the onset of diabetes complications. B
Diabetes distress (DD) is very common and is distinct from other psychological disorders (130–132). DD refers to significant negative psychological reactions related to emotional burdens and worries specific to an individual’s experience in having to manage a severe, complicated, and demanding chronic disease such as diabetes (131–133). The constant behavioral demands (medication dosing, frequency, and titration; monitoring blood glucose, food intake, eating patterns, and physical activity) of diabetes self-management and the potential or actuality of disease progression are directly associated with reports of DD (131). The prevalence of DD is reported to be 18–45% with an incidence of 38–48% over 18 months (133). In the second Diabetes Attitudes, Wishes and Needs (DAWN2) study, significant DD was reported by 45% of the participants, but only 24% reported that their health care teams asked them how diabetes affected their lives (130). High levels of DD significantly impact medication-taking behaviors and are linked to higher A1C, lower self-efficacy, and poorer dietary and exercise behaviors (14,131,133). DSME has been shown to reduce DD (14). It may be helpful to provide counseling regarding expected diabetes-related versus generalized psychological distress at diagnosis and when disease state or treatment changes (134).
DD should be routinely monitored (135) using patient-appropriate validated measures. If DD is identified, the person should be referred for specific diabetes education to address areas of diabetes self-care that are most relevant to the patient and impact clinical management. People whose self-care remains impaired after tailored diabetes education should be referred by their care team to a behavioral health provider for evaluation and treatment.
Other psychosocial issues known to affect self-management and health outcomes include attitudes about the illness, expectations for medical management and outcomes, available resources (financial, social, and emotional) (136), and psychiatric history. For additional information on psychiatric comorbidities (depression, anxiety, disordered eating, and serious mental illness), please refer to Section 3 “Comprehensive Medical Evaluation and Assessment of Comorbidities.”
Indications for referral to a mental health specialist familiar with diabetes management may include positive screening for overall stress related to work-life balance, DD, diabetes management difficulties, depression, anxiety, disordered eating, and cognitive functioning difficulties (see Table 4.2 for a complete list). It is preferable to incorporate psychosocial assessment and treatment into routine care rather than waiting for a specific problem or deterioration in metabolic or psychological status to occur (22,130). Providers should identify behavioral and mental health providers, ideally those who are knowledgeable about diabetes treatment and the psychosocial aspects of diabetes, to whom they can refer patients. Ideally, psychosocial care providers should be embedded in diabetes care settings. Although the clinician may not feel qualified to treat psychological problems (137), optimizing the patient–provider relationship as a foundation may increase the likelihood of the patient accepting referral for other services. Collaborative care interventions and a team approach have demonstrated efficacy in diabetes self-management and psychosocial functioning (14).
Situations that warrant referral of a person with diabetes to a mental health provider for evaluation and treatment
Suggested citation: American Diabetes Association. Lifestyle management. Sec. 4. In Standards of Medical Care in Diabetes—2017. Diabetes Care 2017;40(Suppl. 1):S33–S43
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