Bienvenidos a un encuentro con la diabetes tipo 1

"El objeto de este sitio es publicar novedades cientificas, relacionadas con prevencion, diagnostico, complicaciones, tratamiento de diabetes tipo 1, como asi tambien comunicar futuros eventos (congresos, jornadas, campamentos educativos, etc) en el pais e internacionales.
Dirigido a equipo de salud de atencion diabetologica (medicos, enfermeros, educadores, nutricionistas, asistentes sociales, profesores de educacion fisica, psicologos, podologos, etc.), empresas de medicina, pacientes y sus familiares."

jueves, 8 de diciembre de 2016

DR. BERCOVICH: Metas en tratamiento de Diabetes tipo 1 y tipo 2.

METAS A CONSEGUIR EN TRATAMIENTO DE DIABETES TIPO 1 Y DIABETES TIPO 2


Glycemic Targets

Assessment of Glycemic Control

Two primary techniques are available for health providers and patients to assess the effectiveness of the management plan on glycemic control: patient self-monitoring of blood glucose (SMBG) and A1C. Continuous glucose monitoring (CGM) or interstitial glucose may be a useful adjunct to SMBG in selected patients.

Recommendations

  • When prescribed as part of a broader educational context, self-monitoring of blood glucose (SMBG) results may help to guide treatment decisions and/or self-management for patients using less frequent insulin injections B or noninsulin therapies. E
  • When prescribing SMBG, ensure that patients receive ongoing instruction and regular evaluation of SMBG technique, SMBG results, and their ability to use SMBG data to adjust therapy. E
  • Most patients on intensive insulin regimens (multiple-dose insulin or insulin pump therapy) should consider SMBG prior to meals and snacks, occasionally postprandially, at bedtime, prior to exercise, when they suspect low blood glucose, after treating low blood glucose until they are normoglycemic, and prior to critical tasks such as driving. B
  • When used properly, continuous glucose monitoring (CGM) in conjunction with intensive insulin regimens is a useful tool to lower A1C in selected adults (aged ≥25 years) with type 1 diabetes. A
  • Although the evidence for A1C lowering is less strong in children, teens, and younger adults, CGM may be helpful in these groups. Success correlates with adherence to ongoing use of the device. B
  • CGM may be a supplemental tool to SMBG in those with hypoglycemia unawareness and/or frequent hypoglycemic episodes. C
  • Given variable adherence to CGM, assess individual readiness for continuing CGM use prior to prescribing. E
  • When prescribing CGM, robust diabetes education, training, and support are required for optimal CGM implementation and ongoing use. E
  • People who have been successfully using CGM should have continued access after they turn 65 years of age. E

Self-monitoring of Blood Glucose

Major clinical trials of insulin-treated patients have included SMBG as part of the multifactorial interventions to demonstrate the benefit of intensive glycemic control on diabetes complications. SMBG is thus an integral component of effective therapy (1). SMBG allows patients to evaluate their individual response to therapy and assess whether glycemic targets are being achieved. Integrating SMBG results into diabetes management can be a useful tool for guiding medical nutrition therapy and physical activity, preventing hypoglycemia, and adjusting medications (particularly prandial insulin doses). Among patients with type 1 diabetes, there is a correlation between greater SMBG frequency and lower A1C (2). The patient’s specific needs and goals should dictate SMBG frequency and timing.

Optimization

SMBG accuracy is dependent on the instrument and user, so it is important to evaluate each patient’s monitoring technique, both initially and at regular intervals thereafter. Optimal use of SMBG requires proper review and interpretation of the data, by both the patient and the provider. Among patients who check their blood glucose at least once daily, many report taking no action when results are high or low. In a yearlong study of insulin-naïve patients with suboptimal initial glycemic control, a group trained in structured SMBG (a paper tool was used at least quarterly to collect and interpret 7-point SMBG profiles taken on 3 consecutive days) reduced their A1C by 0.3 percentage points more than the control group (3). Patients should be taught how to use SMBG data to adjust food intake, exercise, or pharmacological therapy to achieve specific goals. The ongoing need for and frequency of SMBG should be reevaluated at each routine visit to avoid overuse (46). SMBG is especially important for insulin-treated patients to monitor for and prevent asymptomatic hypoglycemia and hyperglycemia.

For Patients on Intensive Insulin Regimens

Most patients on intensive insulin regimens (multiple-dose insulin or insulin pump therapy) should consider SMBG prior to meals and snacks, occasionally postprandially, at bedtime, prior to exercise, when they suspect low blood glucose, after treating low blood glucose until they are normoglycemic, and prior to critical tasks such as driving. For many patients, this will require testing 6–10 (or more) times daily, although individual needs may vary. A database study of almost 27,000 children and adolescents with type 1 diabetes showed that, after adjustment for multiple confounders, increased daily frequency of SMBG was significantly associated with lower A1C (−0.2% per additional test per day) and with fewer acute complications.

For Patients Using Basal Insulin or Oral Agents

The evidence is insufficient regarding when to prescribe SMBG and how often testing is needed for patients who do not use an intensive insulin regimen, such as those with type 2 diabetes using oral agents or on basal insulin. For patients on basal insulin, lowering of A1C has been demonstrated for those who adjust their dose to attain a fasting glucose within a targeted range (7,8).
For individuals with type 2 diabetes on less intensive insulin therapy, more frequent SMBG (e.g., fasting, before/after meals) may be helpful, as increased frequency has been shown to be inversely correlated with glycemic control (9).
Several randomized trials have called into question the clinical utility and cost-effectiveness of routine SMBG in noninsulin-treated patients (1012). A meta-analysis suggested that SMBG reduced A1C by 0.25% at 6 months (13), but the effect was attenuated at 12 months (14). A key consideration is that performing SMBG alone does not lower blood glucose levels. To be useful, the information must be integrated into clinical and self-management plans.

Continuous Glucose Monitoring

Real-time CGM measures interstitial glucose (which correlates well with plasma glucose) and includes sophisticated alarms for hypo- and hyperglycemic excursions, but the U.S. Food and Drug Administration (FDA) has not approved these devices as a sole agent to monitor glucose. CGMs require calibration with SMBG, with the latter still required for making acute treatment decisions.
A 26-week randomized trial of 322 patients with type 1 diabetes showed that adults aged ≥25 years using intensive insulin therapy and CGM experienced a 0.5% reduction in A1C (from ∼7.6% to 7.1% [∼60 mmol/mol to 54 mmol/mol]), compared with those using intensive insulin therapy with SMBG (15). Sensor use in those aged <25 years (children, teens, and adults) did not result in significant A1C lowering, and there was no significant difference in hypoglycemia in any group. The greatest predictor of A1C lowering for all age-groups was frequency of sensor use, which was highest in those aged ≥25 years and lower in younger age-groups.
A registry study of 17,317 participants confirmed that more frequent CGM use is associated with lower A1C (16), whereas another study showed that children with >70% sensor use missed fewer school days (17). Small randomized controlled trials in adults and children with baseline A1C 7.0–7.5% (53–58 mmol/mol) have confirmed favorable outcomes (A1C and hypoglycemia occurrence) in groups using CGM, suggesting that CGM may provide further benefit for individuals with type 1 diabetes who already have tight control (18,19).
A meta-analysis suggests that, compared with SMBG, CGM is associated with short-term A1C lowering of ∼0.26% (20). The long-term effectiveness of CGM needs to be determined. This technology may be particularly useful in those with hypoglycemia unawareness and/or frequent hypoglycemic episodes, although studies have not shown consistent reductions in severe hypoglycemia (2022). A CGM device equipped with an automatic low glucose suspend feature has been approved by the FDA. The Automation to Simulate Pancreatic Insulin Response (ASPIRE) trial of 247 patients showed that sensor-augmented insulin pump therapy with a low glucose suspend significantly reduced nocturnal hypoglycemia, without increasing A1C levels for those over 16 years of age (23). These devices may offer the opportunity to reduce severe hypoglycemia for those with a history of nocturnal hypoglycemia. Due to variable adherence, optimal CGM use requires an assessment of individual readiness for the technology as well as initial and ongoing education and support (16,24). Additionally, providers need to provide robust diabetes education, training, and support for optimal CGM implementation and ongoing use. As people with type 1 or type 2 diabetes are living longer healthier lives, individuals who have been successfully using CGM should have continued access after they turn 65 years of age.

A1C Testing

Recommendations

  • Perform the A1C test at least two times a year in patients who are meeting treatment goals (and who have stable glycemic control). E
  • Perform the A1C test quarterly in patients whose therapy has changed or who are not meeting glycemic goals. E
  • Point-of-care testing for A1C provides the opportunity for more timely treatment changes. E
A1C reflects average glycemia over several months and has strong predictive value for diabetes complications (25,26). Thus, A1C testing should be performed routinely in all patients with diabetes—at initial assessment and as part of continuing care. Measurement approximately every 3 months determines whether patients’ glycemic targets have been reached and maintained. The frequency of A1C testing should depend on the clinical situation, the treatment regimen, and the clinician’s judgment. Patients with type 2 diabetes with stable glycemia well within target may do well with testing only twice per year. Unstable or highly intensively managed patients (e.g., pregnant women with type 1 diabetes) may require testing more frequently than every 3 months (27).

A1C Limitations

The A1C test is subject to certain limitations. Conditions that affect red blood cell turnover (hemolysis, blood loss) and hemoglobin variants must be considered, particularly when the A1C result does not correlate with the patient’s blood glucose levels. For patients in whom A1C/estimated average glucose (eAG) and measured blood glucose appear discrepant, clinicians should consider the possibilities of hemoglobinopathy or altered red blood cell turnover and the options of more frequent and/or different timing of SMBG or CGM use. Other measures of chronic glycemia such as fructosamine are available, but their linkage to average glucose and their prognostic significance are not as clear as for A1C (see Section 2 “Classification and Diagnosis of Diabetes”).
A1C does not provide a measure of glycemic variability or hypoglycemia. For patients prone to glycemic variability, especially patients with type 1 diabetes or type 2 diabetes with severe insulin deficiency, glycemic control is best evaluated by the combination of results from SMBG and A1C. A1C may also confirm the accuracy of the patient’s meter (or the patient’s reported SMBG results) and the adequacy of the SMBG testing schedule.

A1C and Mean Glucose

Table 5.1 shows the correlation between A1C levels and mean glucose levels based on two studies: the international A1C-Derived Average Glucose (ADAG) trial, which based the correlation with A1C on frequent SMBG and CGM in 507 adults (83% non-Hispanic whites) with type 1, type 2, and no diabetes (28), and an empirical study of the average blood glucose levels at premeal, postmeal, and bedtime associated with specified A1C levels using data from the ADAG trial (24). The American Diabetes Association (ADA) and the American Association for Clinical Chemistry have determined that the correlation (r = 0.92) in the ADAG trial is strong enough to justify reporting both the A1C result and the eAG result when a clinician orders the A1C test. Clinicians should note that the mean plasma glucose numbers in the table are based on ∼2,800 readings per A1C in the ADAG trial.
Table 5.1
Mean glucose levels for specified A1C levels (24,28)

A1C Differences in Ethnic Populations and Children

In the ADAG study, there were no significant differences among racial and ethnic groups in the regression lines between A1C and mean glucose, although there was a trend toward a difference between the African/African American and non-Hispanic white cohorts. A small study comparing A1C to CGM data in children with type 1 diabetes found a highly statistically significant correlation between A1C and mean blood glucose, although the correlation (r = 0.7) was significantly lower than in the ADAG trial (29). Whether there are significant differences in how A1C relates to average glucose in children or in different ethnicities is an area for further study (30,31). For the time being, the question has not led to different recommendations about testing A1C or to different interpretations of the clinical meaning of given levels of A1C in those populations.

A1C Goals

For glycemic goals in children, please refer to Section 11 “Children and Adolescents.” For glycemic goals in pregnant women, please refer to Section 12 “Management of Diabetes in Pregnancy.”

Recommendations

  • A reasonable A1C goal for many nonpregnant adults is <7% (53 mmol/mol). A
  • Providers might reasonably suggest more stringent A1C goals (such as <6.5% [48 mmol/mol]) for selected individual patients if this can be achieved without significant hypoglycemia or other adverse effects of treatment. Appropriate patients might include those with short duration of diabetes, type 2 diabetes treated with lifestyle or metformin only, long life expectancy, or no significant cardiovascular disease. C
  • Less stringent A1C goals (such as <8% [64 mmol/mol]) may be appropriate for patients with a history of severe hypoglycemia, limited life expectancy, advanced microvascular or macrovascular complications, extensive comorbid conditions, or long-standing diabetes in whom the general goal is difficult to attain despite diabetes self-management education, appropriate glucose monitoring, and effective doses of multiple glucose-lowering agents including insulin. B

A1C and Microvascular Complications

Type 1 Diabetes

Hyperglycemia defines diabetes, and glycemic control is fundamental to diabetes management. The Diabetes Control and Complications Trial (DCCT) (1), a prospective randomized controlled trial of intensive versus standard glycemic control in patients with relatively recently diagnosed type 1 diabetes, showed definitively that improved glycemic control is associated with significantly decreased rates of microvascular (retinopathy [32] and diabetic kidney disease) and neuropathic complications. Follow-up of the DCCT cohorts in the Epidemiology of Diabetes Interventions and Complications (EDIC) study (33) demonstrated persistence of these microvascular benefits in previously intensively treated subjects, even though their glycemic control approximated that of previous standard arm subjects during follow-up.

Type 2 Diabetes

The Kumamoto Study (34) and UK Prospective Diabetes Study (UKPDS) (35,36) confirmed that intensive glycemic control was associated with significantly decreased rates of microvascular and neuropathic complications in patients with type 2 diabetes. Long-term follow-up of the UKPDS cohorts showed enduring effects of early glycemic control on most microvascular complications (37).
Therefore, achieving glycemic control of A1C targets of <7% (53 mmol/mol) has been shown to reduce microvascular complications of diabetes and, in patients with type 1 diabetes, mortality. If implemented soon after the diagnosis of diabetes, this target is associated with long-term reduction in macrovascular disease.

ACCORD, ADVANCE, and VADT

Three landmark trials (Action to Control Cardiovascular Risk in Diabetes [ACCORD], Action in Diabetes and Vascular Disease: Preterax and Diamicron MR Controlled Evaluation [ADVANCE], and Veterans Affairs Diabetes Trial [VADT]) showed that lower A1C levels were associated with reduced onset or progression of microvascular complications (3840).
Epidemiological analyses of the DCCT (1) and UKPDS (41) demonstrate a curvilinear relationship between A1C and microvascular complications. Such analyses suggest that, on a population level, the greatest number of complications will be averted by taking patients from very poor control to fair/good control. These analyses also suggest that further lowering of A1C from 7% to 6% [53 mmol/mol to 42 mmol/mol] is associated with further reduction in the risk of microvascular complications, although the absolute risk reductions become much smaller. Given the substantially increased risk of hypoglycemia in type 1 diabetes trials and with polypharmacy in type 2 diabetes, the risks of lower glycemic targets outweigh the potential benefits on microvascular complications.
The concerning mortality findings in the ACCORD trial (42), discussed below, and the relatively intense efforts required to achieve near-euglycemia should also be considered when setting glycemic targets. However, on the basis of physician judgment and patient preferences, select patients, especially those with little comorbidity and long life expectancy, may benefit from adopting more intensive glycemic targets (e.g., A1C target <6.5% [48 mmol/mol]) as long as significant hypoglycemia does not become a barrier.

A1C and Cardiovascular Disease Outcomes

Cardiovascular Disease and Type 1 Diabetes

Cardiovascular disease (CVD) is a more common cause of death than microvascular complications in populations with diabetes. There is evidence for a cardiovascular benefit of intensive glycemic control after long-term follow-up of study cohorts treated early in the course of type 1 and type 2 diabetes. In the DCCT, there was a trend toward lower risk of CVD events with intensive control. In the 9-year post-DCCT follow-up of the EDIC cohort, participants previously randomly assigned to the intensive arm had a significant 57% reduction in the risk of nonfatal myocardial infarction (MI), stroke, or CVD death compared with those previously in the standard arm (43). The benefit of intensive glycemic control in this cohort with type 1 diabetes has been shown to persist for several decades (44) and to be associated with a modest reduction in all-cause mortality (45).

Cardiovascular Disease and Type 2 Diabetes

In type 2 diabetes, there is evidence that more intensive treatment of glycemia in newly diagnosed patients may reduce long-term CVD rates. During the UKPDS trial, there was a 16% reduction in CVD events (combined fatal or nonfatal MI and sudden death) in the intensive glycemic control arm that did not reach statistical significance (P = 0.052), and there was no suggestion of benefit on other CVD outcomes (e.g., stroke). However, after 10 years of follow-up, those originally randomly assigned to intensive glycemic control had significant long-term reductions in MI (15% with sulfonylurea or insulin as initial pharmacotherapy, 33% with metformin as initial pharmacotherapy) and in all-cause mortality (13% and 27%, respectively) (37).
The ACCORD, ADVANCE, and VADT suggested no significant reduction in CVD outcomes with intensive glycemic control in participants followed for 3.5−5.6 years who had more advanced type 2 diabetes than UKPDS participants. All three trials were conducted in participants with more long-standing diabetes (mean duration 8–11 years) and either known CVD or multiple cardiovascular risk factors. The target A1C among intensive control subjects was <6% (42 mmol/mol) in ACCORD, <6.5% (48 mmol/mol) in ADVANCE, and a 1.5% reduction in A1C compared with control subjects in VADT, with achieved A1C of 6.4% versus 7.5% (46 mmol/mol vs. 58 mmol/mol) in ACCORD, 6.5% versus 7.3% (48 mmol/mol vs. 56 mmol/mol) in ADVANCE, and 6.9% versus 8.4% (52 mmol/mol vs. 68 mmol/mol) in VADT. Details of these studies are reviewed extensively in the ADA position statement “Intensive Glycemic Control and the Prevention of Cardiovascular Events: Implications of the ACCORD, ADVANCE, and VA Diabetes Trials: A Position Statement of the American Diabetes Association and a Scientific Statement of the American College of Cardiology Foundation and the American Heart Association” (46).
The glycemic control comparison in ACCORD was halted early due to an increased mortality rate in the intensive compared with the standard arm (1.41% vs. 1.14% per year; hazard ratio 1.22 [95% CI 1.01–1.46]), with a similar increase in cardiovascular deaths. Analysis of the ACCORD data did not identify a clear explanation for the excess mortality in the intensive arm (42).
Longer-term follow-up has shown no evidence of cardiovascular benefit or harm in the ADVANCE trial (47), which is perhaps not unexpected given the narrow separation in A1C between groups. The end-stage renal disease rate was lower in the intensive group over follow-up. However, 10-year follow-up of the VADT cohort (48) showed a reduction in the risk of cardiovascular events (52.7 [control group] vs. 44.1 [intervention group] events per 1,000 person-years) with no benefit in cardiovascular or overall mortality. Heterogeneity of mortality effects across studies was noted, which may reflect differences in glycemic targets, therapeutic approaches, and population characteristics (49).
Mortality findings in ACCORD (42) and subgroup analyses of VADT (50) suggest that the potential risks of intensive glycemic control may outweigh its benefits in higher-risk patients. In all three trials, severe hypoglycemia was significantly more likely in participants who were randomly assigned to the intensive glycemic control arm. Those patients with long duration of diabetes, a known history of severe hypoglycemia, advanced atherosclerosis, or advanced age/frailty may benefit from less aggressive targets (51,52).
Providers should be vigilant in preventing severe hypoglycemia in patients with advanced disease and should not aggressively attempt to achieve near-normal A1C levels in patients in whom such targets cannot be safely and reasonably achieved. Severe or frequent hypoglycemia is an absolute indication for the modification of treatment regimens, including setting higher glycemic goals. Many factors, including patient preferences, should be taken into account when developing a patient’s individualized goals (Table 5.2).
Table 5.2
Summary of glycemic recommendations for nonpregnant adults with diabetes

A1C and Glycemic Targets

Numerous aspects must be considered when setting glycemic targets. The ADA proposes optimal targets, but each target must be individualized to the needs of each patient and his or her disease factors.
When possible, such decisions should be made with the patient, reflecting his or her preferences, needs, and values. Figure 5.1 is not designed to be applied rigidly but to be used as a broad construct to guide clinical decision making (53), both in type 1 and type 2 diabetes.
Figure 5.1
Depicted are patient and disease factors used to determine optimal A1C targets. Characteristics and predicaments toward the left justify more stringent efforts to lower A1C; those toward the right suggest less stringent efforts. Adapted with permission from Inzucchi et al. (53).
Recommended glycemic targets for many nonpregnant adults are shown in Table 5.2. The recommendations include blood glucose levels that appear to correlate with achievement of an A1C of <7% (53 mmol/mol). The issue of preprandial versus postprandial SMBG targets is complex (54). Elevated postchallenge (2-h oral glucose tolerance test) glucose values have been associated with increased cardiovascular risk independent of fasting plasma glucose in some epidemiological studies. In subjects with diabetes, surrogate measures of vascular pathology, such as endothelial dysfunction, are negatively affected by postprandial hyperglycemia. It is clear that postprandial hyperglycemia, like preprandial hyperglycemia, contributes to elevated A1C levels, with its relative contribution being greater at A1C levels that are closer to 7% (53 mmol/mol). However, outcome studies have clearly shown A1C to be the primary predictor of complications, and landmark glycemic control trials such as the DCCT and UKPDS relied overwhelmingly on preprandial SMBG. Additionally, a randomized controlled trial in patients with known CVD found no CVD benefit of insulin regimens targeting postprandial glucose compared with those targeting preprandial glucose (55). Therefore, it is reasonable for postprandial testing to be recommended for individuals who have premeal glucose values within target but have A1C values above target. Taking postprandial plasma glucose measurements 1–2 h after the start of a meal and using treatments aimed at reducing postprandial plasma glucose values to <180 mg/dL (10.0 mmol/L) may help to lower A1C.
An analysis of data from 470 participants of the ADAG study (237 with type 1 diabetes and 147 with type 2 diabetes) found that actual average glucose levels associated with conventional A1C targets were higher than older DCCT and ADA targets (Table 5.1) (24,28). These findings support that premeal glucose targets may be relaxed without undermining overall glycemic control as measured by A1C. These data have prompted a revision in the ADA-recommended premeal target to 80–130 mg/dL (4.4–7.2 mmol/L).

Hypoglycemia

Recommendations

  • Individuals at risk for hypoglycemia should be asked about symptomatic and asymptomatic hypoglycemia at each encounter. C
  • Glucose (15–20 g) is the preferred treatment for the conscious individual with hypoglycemia, although any form of carbohydrate that contains glucose may be used. Fifteen minutes after treatment, if SMBG shows continued hypoglycemia, the treatment should be repeated. Once SMBG returns to normal, the individual should consume a meal or snack to prevent recurrence of hypoglycemia. E
  • Glucagon should be prescribed for all individuals at increased risk of severe hypoglycemia, defined as hypoglycemia requiring assistance, and caregivers, school personnel, or family members of these individuals should be instructed in its administration. Glucagon administration is not limited to health care professionals. E
  • Hypoglycemia unawareness or one or more episodes of severe hypoglycemia should trigger reevaluation of the treatment regimen. E
  • Insulin-treated patients with hypoglycemia unawareness or an episode of severe hypoglycemia should be advised to raise their glycemic targets to strictly avoid further hypoglycemia for at least several weeks in order to partially reverse hypoglycemia unawareness and reduce risk of future episodes. A
  • Ongoing assessment of cognitive function is suggested with increased vigilance for hypoglycemia by the clinician, patient, and caregivers if low cognition or declining cognition is found. B
Hypoglycemia is the major limiting factor in the glycemic management of type 1 and insulin-treated type 2 diabetes. Mild hypoglycemia may be inconvenient or frightening to patients with diabetes. Severe hypoglycemia is defined as hypoglycemia requiring assistance from another person. It is characterized by cognitive impairment that may be recognized or unrecognized and can progress to loss of consciousness, seizure, coma, or death, and it is reversed by administration of rapid-acting glucose. Severe hypoglycemia can cause acute harm to the person with diabetes or others, especially if it causes falls, motor vehicle accidents, or other injury. A large cohort study suggested that among older adults with type 2 diabetes, a history of severe hypoglycemia was associated with greater risk of dementia (56). Conversely, in a substudy of the ACCORD trial, cognitive impairment at baseline or decline in cognitive function during the trial was significantly associated with subsequent episodes of severe hypoglycemia (57). Evidence from DCCT/EDIC, which involved younger adults and adolescents with type 1 diabetes, found no association between frequency of severe hypoglycemia and cognitive decline (58), as discussed in Section 11 “Children and Adolescents.”
Severe hypoglycemia was associated with mortality in participants in both the standard and the intensive glycemia arms of the ACCORD trial, but the relationships between hypoglycemia, achieved A1C, and treatment intensity were not straightforward. An association of severe hypoglycemia with mortality was also found in the ADVANCE trial (59). An association between self-reported severe hypoglycemia and 5-year mortality has also been reported in clinical practice (60).
Young children with type 1 diabetes and the elderly are noted as particularly vulnerable to severe hypoglycemia because of their reduced ability to recognize hypoglycemic symptoms and effectively communicate their needs. Individualized patient education, dietary intervention (e.g., bedtime snack to prevent overnight hypoglycemia), exercise management, medication adjustment, glucose monitoring, and routine clinical surveillance may improve patient outcomes (61). Documented symptomatic hypoglycemia and asymptomatic hypoglycemia are defined as occurring at a plasma glucose concentration of ≤70 mg/dL (3.9 mmol/L) (61). This level remains a general threshold for defining hypoglycemia.
In 2014, the ADA changed its glycemic target to 80–130 mg/dL (4.4–7.2 mmol/L). This change reflects the results of the ADAG study, which demonstrated that higher glycemic targets corresponded to A1C goals (24). An additional goal of raising the lower range of the glycemic target was to limit overtreatment and provide a safety margin in patients titrating glucose-lowering drugs such as insulin to glycemic targets.

Hypoglycemia Treatment

Hypoglycemia treatment requires ingestion of glucose- or carbohydrate-containing foods. The acute glycemic response correlates better with the glucose content of food than with the carbohydrate content of food. Pure glucose is the preferred treatment, but any form of carbohydrate that contains glucose will raise blood glucose. Added fat may retard and then prolong the acute glycemic response. Ongoing insulin activity or insulin secretagogues may lead to recurrent hypoglycemia unless further food is ingested after recovery.

Glucagon

Those in close contact with, or having custodial care of, people with hypoglycemia-prone diabetes (family members, roommates, school personnel, child care providers, correctional institution staff, or coworkers) should be instructed on the use of glucagon kits. An individual does not need to be a health care professional to safely administer glucagon. Care should be taken to ensure that glucagon kits are not expired.

Hypoglycemia Prevention

Hypoglycemia prevention is a critical component of diabetes management. SMBG and, for some patients, CGM are essential tools to assess therapy and detect incipient hypoglycemia. Patients should understand situations that increase their risk of hypoglycemia, such as fasting for tests or procedures, during or after intense exercise, and during sleep. Hypoglycemia may increase the risk of harm to self or others, such as with driving. Teaching people with diabetes to balance insulin use and carbohydrate intake and exercise are necessary, but these strategies are not always sufficient for prevention.
In type 1 diabetes and severely insulin-deficient type 2 diabetes, hypoglycemia unawareness (or hypoglycemia-associated autonomic failure) can severely compromise stringent diabetes control and quality of life. This syndrome is characterized by deficient counterregulatory hormone release, especially in older adults, and a diminished autonomic response, which both are risk factors for, and caused by, hypoglycemia. A corollary to this “vicious cycle” is that several weeks of avoidance of hypoglycemia has been demonstrated to improve counterregulation and awareness to some extent in many patients (62). Hence, patients with one or more episodes of severe hypoglycemia may benefit from at least short-term relaxation of glycemic targets.


Intercurrent Illness

For further information on management of patients with hyperglycemia in the hospital, please refer to Section 13 “Diabetes Care in the Hospital.”
Stressful events (e.g., illness, trauma, surgery, etc.) frequently aggravate glycemic control and may precipitate diabetic ketoacidosis or nonketotic hyperosmolar state, life-threatening conditions that require immediate medical care to prevent complications and death. Any condition leading to deterioration in glycemic control necessitates more frequent monitoring of blood glucose; ketosis-prone patients also require urine or blood ketone monitoring. If accompanied by ketosis, vomiting, or alteration in the level of consciousness, marked hyperglycemia requires temporary adjustment of the treatment regimen and immediate interaction with the diabetes care team. The patient treated with noninsulin therapies or medical nutrition therapy alone may temporarily require insulin. Adequate fluid and caloric intake must be ensured. Infection or dehydration is more likely to necessitate hospitalization of the person with diabetes than the person without diabetes.
A physician with expertise in diabetes management should treat the hospitalized patient. For further information on diabetic ketoacidosis management or hyperglycemic nonketotic hyperosmolar state, please refer to the ADA consensus report “Hyperglycemic Crises in Adult Patients With Diabetes” (63).

Assessment of Glycemic Control

Two primary techniques are available for health providers and patients to assess the effectiveness of the management plan on glycemic control: patient self-monitoring of blood glucose (SMBG) and A1C. Continuous glucose monitoring (CGM) or interstitial glucose may be a useful adjunct to SMBG in selected patients.

Recommendations

  • When prescribed as part of a broader educational context, self-monitoring of blood glucose (SMBG) results may help to guide treatment decisions and/or self-management for patients using less frequent insulin injections B or noninsulin therapies. E
  • When prescribing SMBG, ensure that patients receive ongoing instruction and regular evaluation of SMBG technique, SMBG results, and their ability to use SMBG data to adjust therapy. E
  • Most patients on intensive insulin regimens (multiple-dose insulin or insulin pump therapy) should consider SMBG prior to meals and snacks, occasionally postprandially, at bedtime, prior to exercise, when they suspect low blood glucose, after treating low blood glucose until they are normoglycemic, and prior to critical tasks such as driving. B
  • When used properly, continuous glucose monitoring (CGM) in conjunction with intensive insulin regimens is a useful tool to lower A1C in selected adults (aged ≥25 years) with type 1 diabetes. A
  • Although the evidence for A1C lowering is less strong in children, teens, and younger adults, CGM may be helpful in these groups. Success correlates with adherence to ongoing use of the device. B
  • CGM may be a supplemental tool to SMBG in those with hypoglycemia unawareness and/or frequent hypoglycemic episodes. C
  • Given variable adherence to CGM, assess individual readiness for continuing CGM use prior to prescribing. E
  • When prescribing CGM, robust diabetes education, training, and support are required for optimal CGM implementation and ongoing use. E
  • People who have been successfully using CGM should have continued access after they turn 65 years of age. E

Self-monitoring of Blood Glucose

Major clinical trials of insulin-treated patients have included SMBG as part of the multifactorial interventions to demonstrate the benefit of intensive glycemic control on diabetes complications. SMBG is thus an integral component of effective therapy (1). SMBG allows patients to evaluate their individual response to therapy and assess whether glycemic targets are being achieved. Integrating SMBG results into diabetes management can be a useful tool for guiding medical nutrition therapy and physical activity, preventing hypoglycemia, and adjusting medications (particularly prandial insulin doses). Among patients with type 1 diabetes, there is a correlation between greater SMBG frequency and lower A1C (2). The patient’s specific needs and goals should dictate SMBG frequency and timing.

Optimization

SMBG accuracy is dependent on the instrument and user, so it is important to evaluate each patient’s monitoring technique, both initially and at regular intervals thereafter. Optimal use of SMBG requires proper review and interpretation of the data, by both the patient and the provider. Among patients who check their blood glucose at least once daily, many report taking no action when results are high or low. In a yearlong study of insulin-naïve patients with suboptimal initial glycemic control, a group trained in structured SMBG (a paper tool was used at least quarterly to collect and interpret 7-point SMBG profiles taken on 3 consecutive days) reduced their A1C by 0.3 percentage points more than the control group (3). Patients should be taught how to use SMBG data to adjust food intake, exercise, or pharmacological therapy to achieve specific goals. The ongoing need for and frequency of SMBG should be reevaluated at each routine visit to avoid overuse (46). SMBG is especially important for insulin-treated patients to monitor for and prevent asymptomatic hypoglycemia and hyperglycemia.

For Patients on Intensive Insulin Regimens

Most patients on intensive insulin regimens (multiple-dose insulin or insulin pump therapy) should consider SMBG prior to meals and snacks, occasionally postprandially, at bedtime, prior to exercise, when they suspect low blood glucose, after treating low blood glucose until they are normoglycemic, and prior to critical tasks such as driving. For many patients, this will require testing 6–10 (or more) times daily, although individual needs may vary. A database study of almost 27,000 children and adolescents with type 1 diabetes showed that, after adjustment for multiple confounders, increased daily frequency of SMBG was significantly associated with lower A1C (−0.2% per additional test per day) and with fewer acute complications.

For Patients Using Basal Insulin or Oral Agents

The evidence is insufficient regarding when to prescribe SMBG and how often testing is needed for patients who do not use an intensive insulin regimen, such as those with type 2 diabetes using oral agents or on basal insulin. For patients on basal insulin, lowering of A1C has been demonstrated for those who adjust their dose to attain a fasting glucose within a targeted range (7,8).
For individuals with type 2 diabetes on less intensive insulin therapy, more frequent SMBG (e.g., fasting, before/after meals) may be helpful, as increased frequency has been shown to be inversely correlated with glycemic control (9).
Several randomized trials have called into question the clinical utility and cost-effectiveness of routine SMBG in noninsulin-treated patients (1012). A meta-analysis suggested that SMBG reduced A1C by 0.25% at 6 months (13), but the effect was attenuated at 12 months (14). A key consideration is that performing SMBG alone does not lower blood glucose levels. To be useful, the information must be integrated into clinical and self-management plans.

Continuous Glucose Monitoring

Real-time CGM measures interstitial glucose (which correlates well with plasma glucose) and includes sophisticated alarms for hypo- and hyperglycemic excursions, but the U.S. Food and Drug Administration (FDA) has not approved these devices as a sole agent to monitor glucose. CGMs require calibration with SMBG, with the latter still required for making acute treatment decisions.
A 26-week randomized trial of 322 patients with type 1 diabetes showed that adults aged ≥25 years using intensive insulin therapy and CGM experienced a 0.5% reduction in A1C (from ∼7.6% to 7.1% [∼60 mmol/mol to 54 mmol/mol]), compared with those using intensive insulin therapy with SMBG (15). Sensor use in those aged <25 years (children, teens, and adults) did not result in significant A1C lowering, and there was no significant difference in hypoglycemia in any group. The greatest predictor of A1C lowering for all age-groups was frequency of sensor use, which was highest in those aged ≥25 years and lower in younger age-groups.
A registry study of 17,317 participants confirmed that more frequent CGM use is associated with lower A1C (16), whereas another study showed that children with >70% sensor use missed fewer school days (17). Small randomized controlled trials in adults and children with baseline A1C 7.0–7.5% (53–58 mmol/mol) have confirmed favorable outcomes (A1C and hypoglycemia occurrence) in groups using CGM, suggesting that CGM may provide further benefit for individuals with type 1 diabetes who already have tight control (18,19).
A meta-analysis suggests that, compared with SMBG, CGM is associated with short-term A1C lowering of ∼0.26% (20). The long-term effectiveness of CGM needs to be determined. This technology may be particularly useful in those with hypoglycemia unawareness and/or frequent hypoglycemic episodes, although studies have not shown consistent reductions in severe hypoglycemia (2022). A CGM device equipped with an automatic low glucose suspend feature has been approved by the FDA. The Automation to Simulate Pancreatic Insulin Response (ASPIRE) trial of 247 patients showed that sensor-augmented insulin pump therapy with a low glucose suspend significantly reduced nocturnal hypoglycemia, without increasing A1C levels for those over 16 years of age (23). These devices may offer the opportunity to reduce severe hypoglycemia for those with a history of nocturnal hypoglycemia. Due to variable adherence, optimal CGM use requires an assessment of individual readiness for the technology as well as initial and ongoing education and support (16,24). Additionally, providers need to provide robust diabetes education, training, and support for optimal CGM implementation and ongoing use. As people with type 1 or type 2 diabetes are living longer healthier lives, individuals who have been successfully using CGM should have continued access after they turn 65 years of age.

A1C Testing

Recommendations

  • Perform the A1C test at least two times a year in patients who are meeting treatment goals (and who have stable glycemic control). E
  • Perform the A1C test quarterly in patients whose therapy has changed or who are not meeting glycemic goals. E
  • Point-of-care testing for A1C provides the opportunity for more timely treatment changes. E
A1C reflects average glycemia over several months and has strong predictive value for diabetes complications (25,26). Thus, A1C testing should be performed routinely in all patients with diabetes—at initial assessment and as part of continuing care. Measurement approximately every 3 months determines whether patients’ glycemic targets have been reached and maintained. The frequency of A1C testing should depend on the clinical situation, the treatment regimen, and the clinician’s judgment. Patients with type 2 diabetes with stable glycemia well within target may do well with testing only twice per year. Unstable or highly intensively managed patients (e.g., pregnant women with type 1 diabetes) may require testing more frequently than every 3 months (27).

A1C Limitations

The A1C test is subject to certain limitations. Conditions that affect red blood cell turnover (hemolysis, blood loss) and hemoglobin variants must be considered, particularly when the A1C result does not correlate with the patient’s blood glucose levels. For patients in whom A1C/estimated average glucose (eAG) and measured blood glucose appear discrepant, clinicians should consider the possibilities of hemoglobinopathy or altered red blood cell turnover and the options of more frequent and/or different timing of SMBG or CGM use. Other measures of chronic glycemia such as fructosamine are available, but their linkage to average glucose and their prognostic significance are not as clear as for A1C (see Section 2 “Classification and Diagnosis of Diabetes”).
A1C does not provide a measure of glycemic variability or hypoglycemia. For patients prone to glycemic variability, especially patients with type 1 diabetes or type 2 diabetes with severe insulin deficiency, glycemic control is best evaluated by the combination of results from SMBG and A1C. A1C may also confirm the accuracy of the patient’s meter (or the patient’s reported SMBG results) and the adequacy of the SMBG testing schedule.

A1C and Mean Glucose

Table 5.1 shows the correlation between A1C levels and mean glucose levels based on two studies: the international A1C-Derived Average Glucose (ADAG) trial, which based the correlation with A1C on frequent SMBG and CGM in 507 adults (83% non-Hispanic whites) with type 1, type 2, and no diabetes (28), and an empirical study of the average blood glucose levels at premeal, postmeal, and bedtime associated with specified A1C levels using data from the ADAG trial (24). The American Diabetes Association (ADA) and the American Association for Clinical Chemistry have determined that the correlation (r = 0.92) in the ADAG trial is strong enough to justify reporting both the A1C result and the eAG result when a clinician orders the A1C test. Clinicians should note that the mean plasma glucose numbers in the table are based on ∼2,800 readings per A1C in the ADAG trial.
Table 5.1
Mean glucose levels for specified A1C levels (24,28)

A1C Differences in Ethnic Populations and Children

In the ADAG study, there were no significant differences among racial and ethnic groups in the regression lines between A1C and mean glucose, although there was a trend toward a difference between the African/African American and non-Hispanic white cohorts. A small study comparing A1C to CGM data in children with type 1 diabetes found a highly statistically significant correlation between A1C and mean blood glucose, although the correlation (r = 0.7) was significantly lower than in the ADAG trial (29). Whether there are significant differences in how A1C relates to average glucose in children or in different ethnicities is an area for further study (30,31). For the time being, the question has not led to different recommendations about testing A1C or to different interpretations of the clinical meaning of given levels of A1C in those populations.

A1C Goals

For glycemic goals in children, please refer to Section 11 “Children and Adolescents.” For glycemic goals in pregnant women, please refer to Section 12 “Management of Diabetes in Pregnancy.”

Recommendations

  • A reasonable A1C goal for many nonpregnant adults is <7% (53 mmol/mol). A
  • Providers might reasonably suggest more stringent A1C goals (such as <6.5% [48 mmol/mol]) for selected individual patients if this can be achieved without significant hypoglycemia or other adverse effects of treatment. Appropriate patients might include those with short duration of diabetes, type 2 diabetes treated with lifestyle or metformin only, long life expectancy, or no significant cardiovascular disease. C
  • Less stringent A1C goals (such as <8% [64 mmol/mol]) may be appropriate for patients with a history of severe hypoglycemia, limited life expectancy, advanced microvascular or macrovascular complications, extensive comorbid conditions, or long-standing diabetes in whom the general goal is difficult to attain despite diabetes self-management education, appropriate glucose monitoring, and effective doses of multiple glucose-lowering agents including insulin. B

A1C and Microvascular Complications

Type 1 Diabetes

Hyperglycemia defines diabetes, and glycemic control is fundamental to diabetes management. The Diabetes Control and Complications Trial (DCCT) (1), a prospective randomized controlled trial of intensive versus standard glycemic control in patients with relatively recently diagnosed type 1 diabetes, showed definitively that improved glycemic control is associated with significantly decreased rates of microvascular (retinopathy [32] and diabetic kidney disease) and neuropathic complications. Follow-up of the DCCT cohorts in the Epidemiology of Diabetes Interventions and Complications (EDIC) study (33) demonstrated persistence of these microvascular benefits in previously intensively treated subjects, even though their glycemic control approximated that of previous standard arm subjects during follow-up.

Type 2 Diabetes

The Kumamoto Study (34) and UK Prospective Diabetes Study (UKPDS) (35,36) confirmed that intensive glycemic control was associated with significantly decreased rates of microvascular and neuropathic complications in patients with type 2 diabetes. Long-term follow-up of the UKPDS cohorts showed enduring effects of early glycemic control on most microvascular complications (37).
Therefore, achieving glycemic control of A1C targets of <7% (53 mmol/mol) has been shown to reduce microvascular complications of diabetes and, in patients with type 1 diabetes, mortality. If implemented soon after the diagnosis of diabetes, this target is associated with long-term reduction in macrovascular disease.

ACCORD, ADVANCE, and VADT

Three landmark trials (Action to Control Cardiovascular Risk in Diabetes [ACCORD], Action in Diabetes and Vascular Disease: Preterax and Diamicron MR Controlled Evaluation [ADVANCE], and Veterans Affairs Diabetes Trial [VADT]) showed that lower A1C levels were associated with reduced onset or progression of microvascular complications (3840).
Epidemiological analyses of the DCCT (1) and UKPDS (41) demonstrate a curvilinear relationship between A1C and microvascular complications. Such analyses suggest that, on a population level, the greatest number of complications will be averted by taking patients from very poor control to fair/good control. These analyses also suggest that further lowering of A1C from 7% to 6% [53 mmol/mol to 42 mmol/mol] is associated with further reduction in the risk of microvascular complications, although the absolute risk reductions become much smaller. Given the substantially increased risk of hypoglycemia in type 1 diabetes trials and with polypharmacy in type 2 diabetes, the risks of lower glycemic targets outweigh the potential benefits on microvascular complications.
The concerning mortality findings in the ACCORD trial (42), discussed below, and the relatively intense efforts required to achieve near-euglycemia should also be considered when setting glycemic targets. However, on the basis of physician judgment and patient preferences, select patients, especially those with little comorbidity and long life expectancy, may benefit from adopting more intensive glycemic targets (e.g., A1C target <6.5% [48 mmol/mol]) as long as significant hypoglycemia does not become a barrier.

A1C and Cardiovascular Disease Outcomes

Cardiovascular Disease and Type 1 Diabetes

Cardiovascular disease (CVD) is a more common cause of death than microvascular complications in populations with diabetes. There is evidence for a cardiovascular benefit of intensive glycemic control after long-term follow-up of study cohorts treated early in the course of type 1 and type 2 diabetes. In the DCCT, there was a trend toward lower risk of CVD events with intensive control. In the 9-year post-DCCT follow-up of the EDIC cohort, participants previously randomly assigned to the intensive arm had a significant 57% reduction in the risk of nonfatal myocardial infarction (MI), stroke, or CVD death compared with those previously in the standard arm (43). The benefit of intensive glycemic control in this cohort with type 1 diabetes has been shown to persist for several decades (44) and to be associated with a modest reduction in all-cause mortality (45).

Cardiovascular Disease and Type 2 Diabetes

In type 2 diabetes, there is evidence that more intensive treatment of glycemia in newly diagnosed patients may reduce long-term CVD rates. During the UKPDS trial, there was a 16% reduction in CVD events (combined fatal or nonfatal MI and sudden death) in the intensive glycemic control arm that did not reach statistical significance (P = 0.052), and there was no suggestion of benefit on other CVD outcomes (e.g., stroke). However, after 10 years of follow-up, those originally randomly assigned to intensive glycemic control had significant long-term reductions in MI (15% with sulfonylurea or insulin as initial pharmacotherapy, 33% with metformin as initial pharmacotherapy) and in all-cause mortality (13% and 27%, respectively) (37).
The ACCORD, ADVANCE, and VADT suggested no significant reduction in CVD outcomes with intensive glycemic control in participants followed for 3.5−5.6 years who had more advanced type 2 diabetes than UKPDS participants. All three trials were conducted in participants with more long-standing diabetes (mean duration 8–11 years) and either known CVD or multiple cardiovascular risk factors. The target A1C among intensive control subjects was <6% (42 mmol/mol) in ACCORD, <6.5% (48 mmol/mol) in ADVANCE, and a 1.5% reduction in A1C compared with control subjects in VADT, with achieved A1C of 6.4% versus 7.5% (46 mmol/mol vs. 58 mmol/mol) in ACCORD, 6.5% versus 7.3% (48 mmol/mol vs. 56 mmol/mol) in ADVANCE, and 6.9% versus 8.4% (52 mmol/mol vs. 68 mmol/mol) in VADT. Details of these studies are reviewed extensively in the ADA position statement “Intensive Glycemic Control and the Prevention of Cardiovascular Events: Implications of the ACCORD, ADVANCE, and VA Diabetes Trials: A Position Statement of the American Diabetes Association and a Scientific Statement of the American College of Cardiology Foundation and the American Heart Association” (46).
The glycemic control comparison in ACCORD was halted early due to an increased mortality rate in the intensive compared with the standard arm (1.41% vs. 1.14% per year; hazard ratio 1.22 [95% CI 1.01–1.46]), with a similar increase in cardiovascular deaths. Analysis of the ACCORD data did not identify a clear explanation for the excess mortality in the intensive arm (42).
Longer-term follow-up has shown no evidence of cardiovascular benefit or harm in the ADVANCE trial (47), which is perhaps not unexpected given the narrow separation in A1C between groups. The end-stage renal disease rate was lower in the intensive group over follow-up. However, 10-year follow-up of the VADT cohort (48) showed a reduction in the risk of cardiovascular events (52.7 [control group] vs. 44.1 [intervention group] events per 1,000 person-years) with no benefit in cardiovascular or overall mortality. Heterogeneity of mortality effects across studies was noted, which may reflect differences in glycemic targets, therapeutic approaches, and population characteristics (49).
Mortality findings in ACCORD (42) and subgroup analyses of VADT (50) suggest that the potential risks of intensive glycemic control may outweigh its benefits in higher-risk patients. In all three trials, severe hypoglycemia was significantly more likely in participants who were randomly assigned to the intensive glycemic control arm. Those patients with long duration of diabetes, a known history of severe hypoglycemia, advanced atherosclerosis, or advanced age/frailty may benefit from less aggressive targets (51,52).
Providers should be vigilant in preventing severe hypoglycemia in patients with advanced disease and should not aggressively attempt to achieve near-normal A1C levels in patients in whom such targets cannot be safely and reasonably achieved. Severe or frequent hypoglycemia is an absolute indication for the modification of treatment regimens, including setting higher glycemic goals. Many factors, including patient preferences, should be taken into account when developing a patient’s individualized goals (Table 5.2).
Table 5.2
Summary of glycemic recommendations for nonpregnant adults with diabetes

A1C and Glycemic Targets

Numerous aspects must be considered when setting glycemic targets. The ADA proposes optimal targets, but each target must be individualized to the needs of each patient and his or her disease factors.
When possible, such decisions should be made with the patient, reflecting his or her preferences, needs, and values. Figure 5.1 is not designed to be applied rigidly but to be used as a broad construct to guide clinical decision making (53), both in type 1 and type 2 diabetes.
Figure 5.1
Depicted are patient and disease factors used to determine optimal A1C targets. Characteristics and predicaments toward the left justify more stringent efforts to lower A1C; those toward the right suggest less stringent efforts. Adapted with permission from Inzucchi et al. (53).
Recommended glycemic targets for many nonpregnant adults are shown in Table 5.2. The recommendations include blood glucose levels that appear to correlate with achievement of an A1C of <7% (53 mmol/mol). The issue of preprandial versus postprandial SMBG targets is complex (54). Elevated postchallenge (2-h oral glucose tolerance test) glucose values have been associated with increased cardiovascular risk independent of fasting plasma glucose in some epidemiological studies. In subjects with diabetes, surrogate measures of vascular pathology, such as endothelial dysfunction, are negatively affected by postprandial hyperglycemia. It is clear that postprandial hyperglycemia, like preprandial hyperglycemia, contributes to elevated A1C levels, with its relative contribution being greater at A1C levels that are closer to 7% (53 mmol/mol). However, outcome studies have clearly shown A1C to be the primary predictor of complications, and landmark glycemic control trials such as the DCCT and UKPDS relied overwhelmingly on preprandial SMBG. Additionally, a randomized controlled trial in patients with known CVD found no CVD benefit of insulin regimens targeting postprandial glucose compared with those targeting preprandial glucose (55). Therefore, it is reasonable for postprandial testing to be recommended for individuals who have premeal glucose values within target but have A1C values above target. Taking postprandial plasma glucose measurements 1–2 h after the start of a meal and using treatments aimed at reducing postprandial plasma glucose values to <180 mg/dL (10.0 mmol/L) may help to lower A1C.
An analysis of data from 470 participants of the ADAG study (237 with type 1 diabetes and 147 with type 2 diabetes) found that actual average glucose levels associated with conventional A1C targets were higher than older DCCT and ADA targets (Table 5.1) (24,28). These findings support that premeal glucose targets may be relaxed without undermining overall glycemic control as measured by A1C. These data have prompted a revision in the ADA-recommended premeal target to 80–130 mg/dL (4.4–7.2 mmol/L).

Hypoglycemia

Recommendations

  • Individuals at risk for hypoglycemia should be asked about symptomatic and asymptomatic hypoglycemia at each encounter. C
  • Glucose (15–20 g) is the preferred treatment for the conscious individual with hypoglycemia, although any form of carbohydrate that contains glucose may be used. Fifteen minutes after treatment, if SMBG shows continued hypoglycemia, the treatment should be repeated. Once SMBG returns to normal, the individual should consume a meal or snack to prevent recurrence of hypoglycemia. E
  • Glucagon should be prescribed for all individuals at increased risk of severe hypoglycemia, defined as hypoglycemia requiring assistance, and caregivers, school personnel, or family members of these individuals should be instructed in its administration. Glucagon administration is not limited to health care professionals. E
  • Hypoglycemia unawareness or one or more episodes of severe hypoglycemia should trigger reevaluation of the treatment regimen. E
  • Insulin-treated patients with hypoglycemia unawareness or an episode of severe hypoglycemia should be advised to raise their glycemic targets to strictly avoid further hypoglycemia for at least several weeks in order to partially reverse hypoglycemia unawareness and reduce risk of future episodes. A
  • Ongoing assessment of cognitive function is suggested with increased vigilance for hypoglycemia by the clinician, patient, and caregivers if low cognition or declining cognition is found. B
Hypoglycemia is the major limiting factor in the glycemic management of type 1 and insulin-treated type 2 diabetes. Mild hypoglycemia may be inconvenient or frightening to patients with diabetes. Severe hypoglycemia is defined as hypoglycemia requiring assistance from another person. It is characterized by cognitive impairment that may be recognized or unrecognized and can progress to loss of consciousness, seizure, coma, or death, and it is reversed by administration of rapid-acting glucose. Severe hypoglycemia can cause acute harm to the person with diabetes or others, especially if it causes falls, motor vehicle accidents, or other injury. A large cohort study suggested that among older adults with type 2 diabetes, a history of severe hypoglycemia was associated with greater risk of dementia (56). Conversely, in a substudy of the ACCORD trial, cognitive impairment at baseline or decline in cognitive function during the trial was significantly associated with subsequent episodes of severe hypoglycemia (57). Evidence from DCCT/EDIC, which involved younger adults and adolescents with type 1 diabetes, found no association between frequency of severe hypoglycemia and cognitive decline (58), as discussed in Section 11 “Children and Adolescents.”
Severe hypoglycemia was associated with mortality in participants in both the standard and the intensive glycemia arms of the ACCORD trial, but the relationships between hypoglycemia, achieved A1C, and treatment intensity were not straightforward. An association of severe hypoglycemia with mortality was also found in the ADVANCE trial (59). An association between self-reported severe hypoglycemia and 5-year mortality has also been reported in clinical practice (60).
Young children with type 1 diabetes and the elderly are noted as particularly vulnerable to severe hypoglycemia because of their reduced ability to recognize hypoglycemic symptoms and effectively communicate their needs. Individualized patient education, dietary intervention (e.g., bedtime snack to prevent overnight hypoglycemia), exercise management, medication adjustment, glucose monitoring, and routine clinical surveillance may improve patient outcomes (61). Documented symptomatic hypoglycemia and asymptomatic hypoglycemia are defined as occurring at a plasma glucose concentration of ≤70 mg/dL (3.9 mmol/L) (61). This level remains a general threshold for defining hypoglycemia.
In 2014, the ADA changed its glycemic target to 80–130 mg/dL (4.4–7.2 mmol/L). This change reflects the results of the ADAG study, which demonstrated that higher glycemic targets corresponded to A1C goals (24). An additional goal of raising the lower range of the glycemic target was to limit overtreatment and provide a safety margin in patients titrating glucose-lowering drugs such as insulin to glycemic targets.

Hypoglycemia Treatment

Hypoglycemia treatment requires ingestion of glucose- or carbohydrate-containing foods. The acute glycemic response correlates better with the glucose content of food than with the carbohydrate content of food. Pure glucose is the preferred treatment, but any form of carbohydrate that contains glucose will raise blood glucose. Added fat may retard and then prolong the acute glycemic response. Ongoing insulin activity or insulin secretagogues may lead to recurrent hypoglycemia unless further food is ingested after recovery.

Glucagon

Those in close contact with, or having custodial care of, people with hypoglycemia-prone diabetes (family members, roommates, school personnel, child care providers, correctional institution staff, or coworkers) should be instructed on the use of glucagon kits. An individual does not need to be a health care professional to safely administer glucagon. Care should be taken to ensure that glucagon kits are not expired.

Hypoglycemia Prevention

Hypoglycemia prevention is a critical component of diabetes management. SMBG and, for some patients, CGM are essential tools to assess therapy and detect incipient hypoglycemia. Patients should understand situations that increase their risk of hypoglycemia, such as fasting for tests or procedures, during or after intense exercise, and during sleep. Hypoglycemia may increase the risk of harm to self or others, such as with driving. Teaching people with diabetes to balance insulin use and carbohydrate intake and exercise are necessary, but these strategies are not always sufficient for prevention.
In type 1 diabetes and severely insulin-deficient type 2 diabetes, hypoglycemia unawareness (or hypoglycemia-associated autonomic failure) can severely compromise stringent diabetes control and quality of life. This syndrome is characterized by deficient counterregulatory hormone release, especially in older adults, and a diminished autonomic response, which both are risk factors for, and caused by, hypoglycemia. A corollary to this “vicious cycle” is that several weeks of avoidance of hypoglycemia has been demonstrated to improve counterregulation and awareness to some extent in many patients (62). Hence, patients with one or more episodes of severe hypoglycemia may benefit from at least short-term relaxation of glycemic targets.

Intercurrent Illness

For further information on management of patients with hyperglycemia in the hospital, please refer to Section 13 “Diabetes Care in the Hospital.”
Stressful events (e.g., illness, trauma, surgery, etc.) frequently aggravate glycemic control and may precipitate diabetic ketoacidosis or nonketotic hyperosmolar state, life-threatening conditions that require immediate medical care to prevent complications and death. Any condition leading to deterioration in glycemic control necessitates more frequent monitoring of blood glucose; ketosis-prone patients also require urine or blood ketone monitoring. If accompanied by ketosis, vomiting, or alteration in the level of consciousness, marked hyperglycemia requires temporary adjustment of the treatment regimen and immediate interaction with the diabetes care team. The patient treated with noninsulin therapies or medical nutrition therapy alone may temporarily require insulin. Adequate fluid and caloric intake must be ensured. Infection or dehydration is more likely to necessitate hospitalization of the person with diabetes than the person without diabetes.
A physician with expertise in diabetes management should treat the hospitalized patient. For further information on diabetic ketoacidosis management or hyperglycemic nonketotic hyperosmolar state, please refer to the ADA consensus report “Hyperglycemic Crises in Adult Patients With Diabetes” (63).

71 comentarios:

  1. Is an online gaming site that brings welcomebonus together more than 100 games, including online slot machines, roulette, horse racing, black beans, and more. look further games This website is focused on rebate for supplementary and pass players. Because casino websites are legal, we have a mighty financial foundation. And have a news system secure sufficient to be trusted by all members.https://918kiss2020.com/tag/welcomebonus/

    ResponderEliminar
  2. Giveaways Play Real Money 918kiss casino download Games, Slots, Formulas, Games, Jackpots, Slots Games Live22 Play Slots Online Guide for Slot Machines online club gold club. https://loisgfarmer.page.tl/

    ResponderEliminar
  3. In which if players meet 2 chest symbols mega888 2020 and dolphins representing the chest . http://downloadmega888.mystrikingly.com/

    ResponderEliminar
  4. It has a stunning feature that makes it one of the loocalbiz most sought after phones in the market today. It is known as the "Super Saver" feature that enables the user to store up to 100% of their talk time on their mobile.
    http://www.loocalbiz.com/mumbai/arts-entertainment/lucky-winner-list

    ResponderEliminar
  5. One of the most common ways that players improve their chances of winning in lottery games india.tradeford is to keep track of the numbers that they already have won. This is a much easier task than learning from the lottery winners themselves, because you can simply go to the site of the lotto in which the game was won and see the winning numbers posted.
    https://india.tradeford.com/in744942/

    ResponderEliminar
  6. My back-pain coach review fifth - Michael effectively reunited with his sweetheart as his very own immediate aftereffect individual excursion and choice to do whatever it took to succeed - in light of the fact that the relationship was that essential to him.

    ResponderEliminar
  7. taking into consideration a company website these businesses are dexterous to manage to pay for customers when stirring to date suggestion in this area specific products or services. Read Full Article Digital promotion companies can plus incite bearing in mind search engine optimization (SEO). This is important as it helps ensure that potential customers are competent to find your company considering they conduct a search for clear products or services.

    ResponderEliminar
  8. No matter what you are looking for when it new mattress on sale under 300 king size
    comes to a king size mattress under 300, you should definitely consider purchasing one because of the many

    ResponderEliminar
  9. Back toward the beginning of the Millennium the 'huge' web crawlers click over here now
    a great many people were utilizing were Lycos and Excite. Obviously, in those days an exceptionally dig this little level of the UK populace approached the web and those that did had a sluggish 'dial-up' framework.

    ResponderEliminar
  10. These multiplayer games are played over a modem or any local network. 918kiss malaysia how to win Some good examples of these internet based games include Age of Empires and Microsoft Ants. As the online gameplay is getting bigger, many people are getting interested in them and therefore, their popularity is also increasing.

    ResponderEliminar
  11. Be that as it may, with regards to the online stage, the actual substance will act/fill in as a business chief or retailer so here the substance will be your delegate for your business. So the substance will bring more my response
    client, guests or business towards your site when you compose an interesting substance on your site page without anyone else the substance begins talking about your items and organizations.

    ResponderEliminar
  12. It doesn't make any difference what industry or specialty that you work in. With visitor blog entries, you can bear outing and position yourself as the "go to individual" in your specialty for whatever you do. You will stand apart as the power and the master that individuals will quickly consider at whatever point your profession rings my response a bell. This is vital for know, since believability is everything on the web, and standing apart as the undeniable master is a urgent advance in acquiring new deals.

    ResponderEliminar
  13. Silver rings are mainly used upon a daily basis for sharp use and as a form of fashion accessory that a person can acquit themselves off. Check This Out
    There are a variety of silver rings that are genial for women. Women choose to have a variety of options to choose from gone selecting and silver rings come up with the money for them in the same pretension as that. have a peek at these guys

    ResponderEliminar
  14. There is no further performer such as natural world and well along than you can locate freshen flora and fauna photography images to print and hang as wall art this can build a treasured display. Artistic natural world photographers adore locating unique scenes and compose bird images to astound viewers. natural world lovers can succeed to find peace and pleasure in printing a freshen flora and fauna balance and either having it framed or framing the financial credit themselves according to their own preference. It is imperative at the back a natural world picture for framed wall art that the image is of considerable make known and normal for framing. Most professional bird photography websites will prompt a buyer if the image prearranged is too little for the size the purchaser would taking into account to buy. If you have any questions you should comprehensively enter the natural world photographer and they should be more than ample to preserve taking place if they are of a reputable nature. why not look here

    ResponderEliminar
  15. A web designing company hires both web designers as skillfully as graphic designers. The web designers click over here now hired by a web designing company are capably aware of every kind of programming technique which are vital in order to play up a website in the best realizable manner. These web designers allow efficient Web Designing facilities which enhance features that are capably talented of surcharge an extra tint of elegance and functionality to a website. why not find out more

    ResponderEliminar
  16. Here you share more useful information with us. I have some more knowledge for you just follow have a peek here . I highly appreciate your work keep it on and stay on your path. I know this is very valuable information for us, for share this kind of information has a piece of good knowledge on it. Thanks for share this kind of knowledge with us useful information follow this Check This Out

    ResponderEliminar
  17. Increase Revenue - With multiple digital marketing channels at your disposal and their effective use, you can increase your organization's revenue at a faster rate. 81.7% of respondents to a survey conducted by Grin agreed that digital marketing has increased their financial performance.look at this web-site

    ResponderEliminar
  18. For example, if you have a working dog like the Border Collie, they need large amounts of protein because they are very active and need protein to meet their energy needs.read this article

    ResponderEliminar
  19.  That's all you might want to do it your self tinting the home windows and kits can be found with pre-cut fashions of colour. find more If Tinted glass nicely sufficient, do it your self job can appear like it was achieved by knowledgeable firm. We are going to talk about the steps to do it your self Tinted glass, in addition to sure sorts of tinting kits can be found.

    ResponderEliminar
  20. Just be sure you observe the rule of "fats over lean". Because of this every layer of your oil portray ought to have larger oil content material than those beneath. This reduces the possibility of your paint to crack.my website

    ResponderEliminar
  21. This machine is you could try here
    programmed and you can plan to blend a night prior.

    ResponderEliminar
  22. In these circumstances, a decent technique is to require a day of significant burden find more info preparing and supplant it with an exercise utilizing light loads (around half of the first loads).

    ResponderEliminar
  23. It was another joy to see your post. It is such an important topic and ignored by so many, even professionals. I thank you to help making people more aware of possible issues. Great stuff as usual...

    ResponderEliminar
  24. Live Training Lab is the leading Global Marketplace for teaching and learning, connecting Php Learning millions of students to the skills they need to succeed. We are being recognized as Karachi best online IT training institute. Learn the JavaScript Programming course from the world’s best instructors. Live Training staff is highly professional, expert, honest, and very communicative. We offer the best JavaScript Programming course in Pakistan (Karachi, Lahore, Islamabad, etc.) worldwide.

    ResponderEliminar
  25. Presently, individuals harley quinn workout utilize these items and administrations since they need to rest easy thinking about themselves as we as a whole do.

    ResponderEliminar
  26. I just stumbled upon all your posts and like to say that I really enjoying this content and want more such good content in future. I already subscribed your content feed and shared the content with my friend. guessing forum

    ResponderEliminar
  27. Increase Revenue - With multiple digital marketing channels at your disposal and their effective use, you can increase your organization's revenue at a faster rate. 81.7% of respondents to a survey conducted by Grin agreed that digital marketing has increased their financial performance. look at this web-site

    read more

    ResponderEliminar
  28. and then toss the proposed contract over to their own entertainment lawyer for what they hope will be a rubber-stamp review on all clauses. website here They are wrong. And those of you who have ever received a label's "first form" proposed contract are chuckling, right about now.

    ResponderEliminar
  29. A vital element of web based business is the comfort of having buys conveyed straightforwardly. On account of physical assets, for example, books, this brings about conveyance learn this here now, which prompt costs to ascend as a rule, consequently refuting a large number of the investment funds related with online business and considerably adding to exchange costs.

    ResponderEliminar
  30. Web-based media has cleared out all the conventional advancement methods that were broadly utilized a couple of years prior. Presently click to read more joints don't need to go house to house for handout circulation or take help of TV commercials.

    ResponderEliminar
  31. The key here is to try not john cena workout routine to push yourself over an objective your body isn't prepared for.

    ResponderEliminar
  32. area and time. These stations not just reformed the idea of information on Indian TV yet in addition changed the news designs. Before 1990s, Doordarshan had cut saves consumed report on Indian TV and furthermore transformed the news programs into a frump work out.

    ResponderEliminar
  33. for distributing news sources; some are online administrations, for crysta lelo example, Enfeedia, some are programs you download. Some are free, some are not. For most extreme straightforwardness, pick a news source distributing instrument you use by filling in a basic structure so you want

    ResponderEliminar
  34. John F. coilaa Kennedy, was killed: "I experienced childhood in an exceptionally enormous shadow...and I couldn't stay away from it," she concedes. "It was anything but a choker, however it was a major

    ResponderEliminar
  35. Big names appear to open up a universe of dreams and for certain, individuals knowing each koolad.asia move of VIPs could bring enormous fulfillment as it would practically mean taking an interest in dreams.

    ResponderEliminar
  36. exchange on energy exchange different business sectors whether FX, Equities or Futures. The expense of low idleness framework has dropped throughout the course of recent years making it conceivable to buy into a low inertness Frapios news channel and get the information from the source giving a colossal edge over merchants staring at the TV

    ResponderEliminar
  37. History of FHM geek capture
    Initially known concerning Him Magazine; this men's way of life magazine has been truly a distribution to deal with right from its creation.

    ResponderEliminar
  38. predominantly since the rise of the Web.
    Web Marketing means to do advertising on the web. It is a significant term for web based showcasing endeavors. It utilizes numerous significant devices to advance genrations showcasing endeavors. The devices that are utilized in computerized

    ResponderEliminar
  39. Este comentario ha sido eliminado por el autor.

    ResponderEliminar
  40. Numerous others take the more customary course to concentrate on music and singing to procure their certifications in music and join theaters and voyaging dramas. Then, at that point, there are likewise the people who turned out to be notable artists by joining a nearby band sTar-Biography at weddings, gatherings and gigs and later in greater clubs and inns prior to hitting for sure.

    ResponderEliminar
  41. Tele Internet Deals brings you the Landline Home Phone, High Speed Internet and TV & Entertainment Services by all top providers in you area at one place to make your lives easier.

    ResponderEliminar
  42. Lighterior is a curated & boutique decor Online Lightning destination with the sole purpose to sell iconic designs from authentic international and national designer brands to the Australian market.

    ResponderEliminar
  43. You have to choose from several contractors easily accessible on the Internet. They provide their sample pictures to show the perfection of their work. Choosing a good contractor is up to you. It's okay to keep your budget in mind, so check your estimates first to make sure you can handle all the costs of the paint job.When it comes to exterior painting services, before seeking professional help, take a walk around your home and analyze the parts that might need repairs before painting. Also calculate the find more info and the type of paint you are going to use. Taking note of the necessary factors can definitely help you even if you are going to hire someone for the job.

    ResponderEliminar
  44. How about we interface with Google Reverse Image Search (GRIS) to obtain pertinent outcomes in fast time. Regardless assuming you drag a picture from the exhibition, or search by picture URL in the hunt box, you generally obtain the greatest outcomes from this shocking check it out photograph query device. The stage depends on the CBIR inquiry apparatus that rates up your picture hunting process well as indicated by your directions.

    ResponderEliminar
  45. 3006401 PS5 MLB THE SHOW 22 is variety of Sony products. We carry wide variety of current and lagacy products. We specialize in hard to find products. With over 4 million skus we are confident you will find what you are looking for.

    ResponderEliminar
  46. 3006401 PS5 MLB THE SHOW 22 is variety of Sony products. We specialize in hard to find products. Mfg. Part: 3006401, UPC: 711719546665. Call Now!

    ResponderEliminar
  47. Este comentario ha sido eliminado por el autor.

    ResponderEliminar
  48. I think I wanted to rekindle our romance through creative collaboration.Also, hes a sum Trekkie and nerd this page therefore the second I did introduce him to Brent, he saw what I wise saying and more in the project.

    ResponderEliminar
  49. If your teeth are crowned? You should see your dentist before beginning any teeth whitening with crowns treatment.

    ResponderEliminar
  50. melatonin 3mg patches have been reported to be helpful by some patients with insomnia. This article’ll define these patches, examine how they function, and evaluate their efficacy.

    ResponderEliminar
  51. Este comentario ha sido eliminado por el autor.

    ResponderEliminar
  52. MS Advisory is a financial advisory firm read here based in China, which is part of Moore Belgium and a member of the Moore Global network. Since 2011 kindly

    ResponderEliminar
  53. Este comentario ha sido eliminado por el autor.

    ResponderEliminar
  54. Este comentario ha sido eliminado por el autor.

    ResponderEliminar
  55. An essential aspect of a shoulder specialist's practice is a patient-centered approach. They actively listen to their patients' concerns, take the time to understand their lifestyle, and involve them in the decision-making process. This compassionate approach fosters trust and ensures that patients feel actively engaged in their treatment journey.

    ResponderEliminar
  56. Discover a charming selection of Bernedoodle Puppies for Sale. These adorable and affectionate crossbreeds are ready to become a wonderful addition to your family. Explore our available Bernedoodle puppies and bring home your new furry friend today!

    ResponderEliminar
  57. JFW Trucking - JFW Trucking | Colorado Trucking & Aggregate Hauling
    JFW Trucking is Colorado's premier trucking & aggregate hauling company since 1935. JFW is ready for your job regardless of the specific need.

    ResponderEliminar
  58. The Reverse Image has been employed in various artistic and creative expressions. In photography, it can be used to convey a sense of otherworldliness or to challenge the viewer's understanding of a particular subject. In painting, it has been employed by renowned artists to create enigmatic and surreal compositions that push the boundaries of imagination, Read More: https://thereverseimage.com/

    ResponderEliminar
  59. Join the conversation on WriteForUs and share your thoughts on current issues! Your comments help foster meaningful discussions and create a vibrant community of ideas. Let your voice be heard and engage with others today!
    writeforus

    ResponderEliminar
  60. Reflecting on the journey of 30 Years Have Passed past the Prologue presents a unique opportunity to delve into the intricate tapestry of media, culture, and art higher than three decades. The retrospective, titled Paul Pfeiffer: Prologue to the tally of the Birth of Freedom, is a meticulous exploration of Paul Pfeiffers impactful work, focusing on themes of spectacle, identity, and the gather together consciousness shaped by media. This exhibition not solitary marks a significant milestone in Pfeiffers career but as well as offers insight into the broader dialogue of how media and entertainment imitate societys whole viewpoint. https://writerium.com/30-years-have-passed-since-the-prologue/

    ResponderEliminar
  61. We are a white label digital marketing service provider. We provide support, like a partner to agencies through quality SEO services l globally.

    ResponderEliminar
  62. Get the latest jobs in Pakistan with Career Pak. Stay informed about new job opportunities across various industries and kickstart your career today!

    ResponderEliminar