have pre-diabetes, some of whom in fact already have microvascular changes (such have diabetes-related complications, yet there are no defined goals and …
July 23, 2008, 9:45 am
AMERICAN COLLEGE OF ENDOCRINOLOGY CONSENSUS STATEMENT ON THE DIAGNOSIS AND MANAGEMENT OF PRE-DIABETES IN THE CONTINUUM OF HYPERGLYCEMIA– WHEN DO THE RISKS OF DIABETES BEGIN? AMERICAN COLLEGE OF ENDOCRINOLOGY TASK FORCE ON PRE-DIABETES
INTRODUCTION A pandemic of obesity and diabetes is occurring Based on current definitions, diabetes now affects an estimated 241 million people in the United States US, an increase of more than 3 million in approximately two years Another 57 million people in the US have pre-diabetes, some of whom in fact already have microvascular changes such as blindness, amputations, and kidney failure consistent with diabetes Pre-diabetes currently refers to people who have impaired fasting glucose IFG, fasting glucose 100125 mg/dL, impaired glucose tolerance IGT, 2 hr post glucose load 140-199 mg/dL or both Pre-diabetes raises short-term absolute risk of type 2 diabetes 5- to 6- fold, and in some populations this may be even higher As the prevalence of and progression to diabetes continue to increase, diabetes-related morbidity and mortality have emerged as major public health care issues The associated yearly cost of diabetes in the US
is 174 billion dollars People with diabetes are vulnerable to multiple and complex medical complications These complications involve both cardiovascular disease heart disease, stroke, and peripheral vascular disease and microvascular disease Epidemiologic evidence suggests that these complications of diabetes begin early in the progression from normal glucose tolerance to frank diabetes Early identification and
July 23, 2008, 9:45 am
treatment of persons with pre-diabetes have the potential to reduce both the incidence of diabetes and related cardiovascular and microvascular disease Until recently, few recommendations have been made for treating patients with prediabetes No medications have been approved by the FDA for addressing either IFG or IGT Most insurance companies deny payment for lifestyle treatment to prevent diabetes There are differences in opinion among health care professionals in the therapeutic approach to treating people with pre-diabetes Many of these people already have diabetes-related complications, yet there are no defined goals and targets of treatment in pre-diabetes for the many risk factors, which include glucose, weight, blood pressure and lipids
Acknowledging these many challenges, major questions that healthcare professionals must address are when do the risks of diabetes begin? what can we do to prevent diabetes?, what strategies are necessary to reduce the vascular complications related to diabetes? and how does society pay for the preventive costs of diabetes in the large number of patients at risk? It is clear that the risks of high blood glucose levels occur earlier than those at which we currently define as diabetes This consensus conference was convened to define targets and goals of treatment in patients with pre-diabetes as it relates to preventing long-term medical complications The goal of the conference was to aid practicing physicians in recognizing pre-diabetes, to help them identify those at high risk for diabetes, and to make clinical decisions on what to do for those patients to reduce their risk of adverse outcomes SPECIFIC CONSIDERATIONS A committee was convened of 17 authorities in diabetes and cardiovascular disease under the auspices of the American College of Endocrinology This group formulated specific diagnostic and management questions Over a 2-day period, twenty four
July 23, 2008, 9:45
am
international experts reviewed the latest scientific data to assist the committee in addressing these questions Question 1- What is the spectrum between normal glucose tolerance, prediabetes, and diabetes, and what should be the criteria for diagnosis of each? There is a continuous spectrum of glucose levels between those considered normal fasting below 100 mg/dL and post-challenge 140 mg/dL and those that are considered diagnostic for diabetes fasting 126 mg/dL and post-challenge 200 mg/dL Whatever label is given to this gap, the data suggest that for some individuals this level of glucose is not benign and may herald overt type 2 diabetes and cardiovascular disease, as well as the unexpected appearance of microvascular complications At the present time, diabetes is diagnosed somewhat arbitrarily based upon the level of glucose associated with the eventual appearance of characteristic end-organ complications, specifically retinopathy Currently diabetes is diagnosed at a fasting plasma glucose level 126 mg/dL or a 2-hour post-glucose challenge plasma glucose 200 mg/dL In large population studies, values for both fasting and 2-hour plasma glucose levels are normally
considerably lower than these thresholds for diabetes diagnosis The upper limit of normal fasting plasma glucose is widely believed to be 99 mg/dL although metabolic and vascular abnormalities have been described recently at values less than that Similarly, 2-hour post-glucose levels less than 140 mg/dL are believed to be within the normal range Thus, the gray area in fasting glucose 100-125 mg/dL and 2-hour levels of 140-199 mg/dL is thought to describe a pre-diabetic range, where some degree of increased micro- and macrovascular complications of diabetes have been described This intermediate state of pre-diabetes is not benign The progression to diabetes for patients with IGT is 6-10 per year, and for persons with both IFG and IGT, the cumulative incidence of diabetes in 6 years may be as higher than 60 In patients with
July 23, 2008, 9:45 am
impaired glucose tolerance, approximately half meet the NCEP criteria for diagnosis of metabolic syndrome Conversion of impaired fasting glucose to diabetes increases CVD mortality two fold, while IGT increases CHD risk by 50 Similarly, the DECODE study found a higher CHD risk with elevated 2-hour post glucose levels even in the presence
of normal fasting glucose levels The syndrome of multiple cardiovascular risk factors or the metabolic syndrome described by NCEP characterizes a group of individuals at increased risk of diabetes as well as CVD IFG, IGT and metabolic syndrome may each describe a prediabetic state which appears to have coincident heightened CHD risk Combining high risk states leads to increased absolute risk for type 2 diabetes For example, in the San Antonio Heart Study, IGT increases future diabetes risk by approximately 5-fold, as did a diagnosis of the metabolic syndrome Patients who had both IGT and IFG had a markedly increased absolute risk compared to either alone Retinopathy was unexpectedly noted in patients with IGT newly diagnosed diabetic patients in the Diabetes Prevention Program A distinction must be made between individuals classified by IFG versus IGT The benefit to be gained by a 2-hour glucose tolerance test was considerable in the EUROHEART survey 2-hour OGTT discovered a significantly greater number of patients than could be detected by determination of fasting glucose alone More traditional diagnoses of pre-diabetes are future-based risk predictions, such as women with a
history of gestational diabetes, offspring of parents with type 2 diabetes, and individuals with abdominal adiposity Patients with cardiovascular disease also have an increased prevalence of pre-diabetes Type 2 diabetes has also been observed with increased frequency in adolescence Fasting plasma glucose should be determined after an overnight fast 8 hours minimum Patients should not be active or have had caffeine or any other factor known to affect carbohydrate metabolism IGT is diagnosed after a 75 g oral glucose load
July 23, 2008, 9:45 am
given in the morning after an appropriate overnight fast Patients should be on an adequate carbohydrate intake prior to the test, should not be physically active during the test and must not smoke For purposes of the diagnosis of IGT, a single sample drawn after a 2-hour glucose load is sufficient Metabolic syndrome may be diagnosed by the NCEP criteria Thus, it seems clear that pre-diabetic states may represent heterogenous etiologies In most, not only is diabetes more likely, but CHD risk is increased as well Progression rates from IFG or IGT to diabetes vary according to degrees of initial hyperglycemia, racial and ethnic backgrounds, as
well as environmental influences Question 2- What are the clinical risks of not treating pre-diabetes? In order to assess the clinical risk of not treating pre-diabetes, there are two sources of data: 1 2 Observational data from populations of patients with pre-diabetes Data from interventional studies comparing placebo to active treatment
In the DECODE Study of 22,000 pts, 2 hr post load glucose levels was associated with a linear increase in hazard ratio for all-cause mortality as the 2 hr blood glucose increases from 95-200mg/dL This increase doubles and approaches that of patients treated for diabetes A 10 year follow up comparing patients with normal glucose tolerance to patients with non-progressive IGT and IGT patients who progressed to diabetes showed a 130 increase in CVD, as compared to only a 70 increase in patients who were diabetic at follow up In the Diabetes Prevention Program, diabetic retinopathy was observed in about 8 of patients with IGT compared to almost 13 in patients who progressed to diabetes In the placebo group, there was a progressive increase in the prevalence of hypertension and in dyslipidemia In the STOP NIDDM trial, there was a also an increase in
hypertension 140/90mmHg in the placebo treated IGT subjects over a three year
July 23, 2008, 9:45 am
period In the placebo group, clinical CVD events increased by about 5 over 4 years In the DPP, indices of autonomic function were found to be impaired in IGT The Honolulu Heart Study, in a 23 year follow up, revealed an increase in sudden death associated with post challenge hyperglycemia which is consistent with autonomic dysfunction observed in patients with IGT Question 3 What goals and treatment modalities should be the focus of the management of pre-diabetes? The management of pre-diabetes involves a set of global treatment measures designed to address its abnormalities and risks The preferred treatment approach for all the abnormalities of persons in this group is intensive lifestyle management, given its safety and the strong evidence of efficacy of this approach in improving glycemia and reducing cardiovascular risk factors We propose a set of treatment goals for blood pressure and lipid control matching those for diabetes, given the strong evidence of increased cardiovascular risk for persons with pre-diabetes, in addition to glycemic control Lifestyle: Lifestyle is a
fundamental management approach to prevent or delay progression from pre-diabetes to diabetes as well as to reduce both micro- and macrovascular risks Persons with pre-diabetes should reduce weight by 5-10, with long-term maintenance at this level Even modest weight loss 7 to 10 of body weight results in decreased fat mass, blood pressure, glucose, low-density lipoprotein, and triglyceride levels These benefits can also translate into improved long-term outcome, especially if weight loss and lifestyle alterations are maintained While lifestyle management is difficult to maintain, the following recommendations may increase the likelihood of success: patient self-monitoring, realistic and stepwise goal setting, stimulus control, cognitive strategies, social support and appropriate reinforcement
July 23, 2008, 9:45 am
A program of regular moderate-intensity physical activity for 30-60 minutes daily, at least 5 days weekly, is recommended The diet should be low in total, saturated fat, and transfatty acids, and with adequate dietary fiber, as per recommendations from the DPP Specifically for blood pressure, lifestyle recommendations recommend lower sodium intake and avoidance of
excess alcohol Currently, there are no pharmacologic therapies that have been approved by the FDA for the prevention of diabetes Thus, any decision to implement pharmacologic therapy for pre-diabetes must be based on the weight of available evidence and a risk: benefit analysis Glycemia: The goals of early glucose-directed therapies are to prevent or delay progression to diabetes and microvascular complications All persons with pre-diabetes should participate in a program of intensive lifestyle management For those at particularly high risk, for example those with some combination of IFG, IGT, and/or MetSynd, those with worsening glycemia, and those with cardiovascular disease, NA fatty liver disease, history of gestational diabetes, or polycystic ovary syndrome, pharmacologic glycemic treatment may be considered in addition to lifestyle strategies Both metformin and acarbose have strong evidence for reduction in development of diabetes from pre-diabetes, and because of their safety, may be acceptable therapeutic strategies While there is clinical trial evidence demonstrating that thiazolidinediones decrease the likelihood of progression from pre-diabetes to diabetes, there are
safety concerns with their use that must be considered eg, congestive heart failure, fractures At the present time, there are not sufficient efficacy and/or safety data to recommend the use of newer agents such as GLP-1 receptor agonists, DPP4 inhibitors, or meglitinides Lipids: Persons with pre-diabetes should have the same lipid goals as those with established diabetes As such, statin therapy is recommended to achieve LDL cholesterol, non-HDL cholesterol, or apoB treatment goals of 100 mg/dL, 130 mg/dl,
July 23, 2008, 9:45 am
and 90 mg/dl Additional use of fibrates, bile acid sequestrants, ezetimibe, and other agents should be considered as appropriate Although niacin is recognized as having lipid benefit, its potential for adverse glycemic effect must be taken into consideration Blood pressure: The committee recommends that prediabetic patients achieve the same target blood pressure currently recommended for persons with diabetes, systolic 130 and diastolic 80 mmHg, recognizing the limitations of these data ACEI/ARB should be first line agents, with CCB as appropriate second line treatment approaches Thiazides, -blockers, or their combination, should be used with caution, due
to adverse effects on glycemia Antiplatelet therapy: Aspirin is recommended for all persons with pre-diabetes for whom there is no identified excess in risk for gastrointestinal, intracranial, or other hemorrhagic condition Considerations in the child and adolescent: The management of the child or adolescent at increased risk for the development of type 2 diabetes in childhood or later in life should utilize many of the measures recommended to prevent or delay the progression to diabetes in adults at increased risk In the young patient at risk, emphasis must be placed on lifestyle change which can be beneficial in improving glycemic and cardiovascular risk parameters Although there have been few intervention studies in children which are directed at reducing diabetes and/or cardiovascular risk, the increase of type 2 diabetes in this age group has paralleled the increase in obesity, which has been attributed to increased caloric consumption and diminished exercise/activity Reduction of BMI and the benefits of increased exercise and physical activity are as important in this age category as they are in adults at risk In the growing child, one must be cautious about weight loss,
being more attentive to preserving appropriate weight for height or to achieving BMI appropriate for age and sex Standards for treating hypertension are established and recommendations for the treatment of dyslipidemia in children have been recommended by the American Heart Association and by the American Academy of Pediatrics
July 23, 2008, 9:45 am
Medical weight loss strategies: In addition, one could consider obesity treatment with orlistat, for which there is evidence of prevention of progression from pre-diabetes to diabetes Sibutramine, although similarly effective to orlistat in reducing weight, lipids, glycemic control but may have adverse blood pressure effects that must be considered Cannabinoid receptor antagonists, although effective in reducing weight and improving glycemia, may cause anxiety and depression and are not approved in the US Bariatric surgery is effective in reducing the likelihood of development of diabetes in patients who are morbidly obese or who have other significant risk factors, but the members of the committee did not believe that a general recommendation was appropriate for patients with pre-diabetes
Question 4- What are the appropriate
measures to monitor pre-diabetes and its treatment? Should we measure parameters of glucose and if so which ones? Monitoring of patients with pre-diabetes to assess for worsening of glycemic status should include annual glucose tolerance test and testing for microalbuminuria FPG, A1C, and lipids should be followed at least twice a year Those patients at highest risk more than one of: IGT, IFG, or metabolic syndrome should be more carefully monitored If the results of monitoring reveal worsening hyperglycemia or CV parameters, intensified lifestyle and pharmacotherapy must be considered In the future biomarkers and genetic markers may allow more targeted interventions and even suggest therapeutic options in the appropriately selected individuals at high risk
July 23, 2008, 9:45 am
Question 5- Can society afford the costs of treating or not treating the prediabetes state? Prevention of diabetes is a key strategy for reducing patient suffering and the high social costs of the disease Diabetes costs are driven by vascular complications as well as by patients 65 years account for more than 50 of total costs largely through expenses incurred during hospitalizations The healthcare costs
of diabetes increase with disease duration, and, even though the costs of macrovascular complications predominate, microvascular complications command a progressively greater proportion of cumulative costs over time, amounting to 48 after 30 years of diabetes Diabetes prevention will delay diabetes onset and predictably result in decreased disease exposure and fewer complications Thus, the costs of diabetes prevention can be balanced against cost savings realized from fewer patient-years of the disease, a reduction in complications, and decreased need for hospitalizations The cost effectiveness of diabetes prevention has been assessed for several modalities of interventions In these analyses, costs pertain to both interventions and outcomes, with health outcomes expressed as quality-adjusted life-years QALYs that adjust length of life for quality of life In particular, the Diabetes Prevention Program DPP has provided a rich source of data that can be used to assess cost effectiveness of lifestyle intervention or metformin to prevent the development of diabetes in patients with IGT Cost effectiveness analyses have been performed using a Markov lifetime simulation model for diabetes
progression developed by the Centers for Disease Control and Prevention and the Research Triangle Institute International The model follows a patient from onset of IGT until death, utilizes DPP intervention costs and quality of life measurements, and assumes a 10 year interval between IGT onset and appearance of diabetes and vascular disease complication rates based on the UKPDS Compared with placebo, metformin was found to delay onset of diabetes by 34 years and reduce cumulative incidence of diabetes by 8 after 30 years, and lifestyle intervention delayed diabetes onset by 111 years with a 20 diminution in diabetes cumulative incidence Lifestyle intervention led to a net increase in 057 QALY relative to placebo at a net increase in cost of 635 per individual, resulting in a cost of 1,124 per QALY This
July 23, 2008, 9:45 am
cost for quality life-year saved is between 1 and 10 of the cost per QALY achieved for anti-hypertensive treatment, coronary artery bypass graft, and cholesterol lowering therapy Another study analyzed DPP data using the Archimedes model to predict outcomes and complication rates, based on Kaiser Permanente patient care data, epidemiological observations,
and clinical trials These authors found that cost per QALY was much higher for lifesyle intervention at 143,000 per QALY; this higher cost estimation can be explained in part by differences in assumptions including a stable HbA1c of 7 that is associated with lower complication rates as opposed to increasing HbA1c as in UKPDS Three other cost effectiveness studies addressing lifestyle interventions demonstarted a net cost savings for life-year gained Importantly, there are also current initiatives to translate the DPP into lower cost interventions in communities, and these efforts, if successful in achieving comparable weight loss, will dramatically enhance cost-effectiveness Thus, vigorous efforts are warranted to develop lifestyle interventions that effectively delay or prevent progression of IGT to diabetes in communities and health care systems The data suggest that these programs can prevent diabetes in high risk patients in a cost effective manner Cost effectiveness analyses have similarly been performed for drug interventions to prevent diabetes In the DPP, metformin is predicted to achieve only 1/3 of the extended health benefits of lifestyle intervention which detracts from
relative cost effectiveness Even so, studies demonstrate that metformin or acarbose can result in net cost savings per life year gained The cost effectiveness for pharmacological interventions will vary as a function of drug properties including effectiveness, cost compared with usual care, impact on quality of life, and safety It is incumbent upon health care systems and health providers to develop lifestyle intervention programs that prevent diabetes, given the current basis of evidence Many physicians in the US are unable to provide the team of health care professionals that can effectively engineer lifestyle changes in their patients, because health systems fail to provide sufficient compensation Health care systems that emphasize acute care to the exclusion of disease prevention or chronic disease management will fail patients
July 23, 2008, 9:45 am
with diabetes and patients at high risk of diabetes A restructuring of health care remuneration to reward disease prevention will be necessary to counteract the increasing burden of diabetes Furthermore, our patients health depends upon built environments in communities that promote healthy lifestyles, necessitating collaboration
among civic and governmental partners to achieve this goal Question 6- What future research is needed to further clarify the diagnosis and management of the pre-diabetes state? 1 The current diagnosis of pre-diabetes is based on glucose criteria alone Current
guidelines recommend that the categories of impaired fasting glucose IFG and impaired glucose tolerance IGT constitute the condition of pre-diabetes The adequacy of the cut-points for establishing these diagnoses has been a subject of considerable discussion, and was a focus of much attention in this conference It is recognized that both these conditions are part of a continuum of risk, and there might be justification for use of even lower cut-points to capture individuals at equal levels of risk for developing type 2 diabetes and its cardiovascular sequelae However, after much discussion the committee agreed that there is insufficient evidence to warrant a recommendation for any change of current diagnostic guidelines for pre-diabetes In light of the observation that persons diagnosed with pre-diabetes have three possible outcomes in long-term follow up: a approximately one-third convert to type 2 diabetes; b one-third
remains in a pre-diabetic state; c and another third reverts to normoglycemia 2 Recommendation 1: We recommend that a retrospective analysis of data from previous long-term prevention studies ie DPP, DPS, Da Qing, others be performed to determine whether there are unique characteristics that might distinguish with greater clarity the determinants of different levels of risk for conversion to diabetes 3 Recommendation 2: In order to determine if there are specific characteristics that predict the development of cardiovascular outcomes in persons with pre-diabetes, we recommend that the retrospective analysis include assessment of the metabolic risk profiles of those persons who have developed CVD vs those who did not
July 23, 2008, 9:45 am
4
Recommendation 3: Since there are no conclusive studies to date that shows
that lowering of fasting or postprandial glucose reduces cardiovascular risk in prediabetes, we recommend a clinical trial in which intensive control of all cardiovascular risk factors plus pharmacologic glucose lowering is achieved in pre-diabetic subjects The primary outcomes would be major cardiovascular events, microvascular complications, and death There are
currently no approved pharmacologic treatments for pre-diabetes The best available evidence for prevention of progression of pre-diabetes to diabetes is lifestyle modification This has been convincingly demonstrated in multiple clinical trials, including the DPP, DPS, and Da Qing What is less clear is what recommendations are warranted when lifestyle modification fails to achieve normoglycemia in a reasonable period of time Likewise, there are few data on the simultaneous use of lifestyle modification and preventive pharmacotherapy compared to either intervention alone Since the failure of lifestyle modification is marked by development of diabetes, and perhaps a requirement for pharmacologic intervention, it would be useful to know if a greater percentage of prevention could be achieved by the simultaneous use of both interventions 5 Recommendation 4: We recommend a clinical outcomes study that would test the hypothesis that simultaneous use of intensive lifestyle modification plus preventive pharmacotherapy would result in the greatest degree of diabetes prevention in prediabetic subjects Since the vast majority of persons with pre-diabetes have multiple cardiovascular risk
factors, and such risk factors predict development of subsequent diabetes in addition to increased cardiovascular risk Data from the DPP has shown that treatment of prediabetes results in improvement of multiple risk factors, including lowering of blood pressure, improvement of dyslipidemia, and weight loss There is a need to identify those patients with pre-diabetes who are at highest risk for CVD outcomes Thus, the challenge is to develop a risk assessment that can be completed by patients and attached to the laboratory order form The laboratory then, can convert this information
July 23, 2008, 9:45 am
to a risk score for diabetes, which could trigger performance of a glucose tolerance test, and other necessary diagnostic tests that would indicate higher levels of cardiovascular risk In order to develop more specific and targeted interventions to preserve beta cell function, which has been demonstrated to be a critical component in progression of glucose intolerance, we recommend the following: 5 Recommendation 5: Encourage further development of non-invasive methods of analyzing beta cell mass and more sensitive assessments of beta cell function in humans; 6 7 Recommendation
6: Identify novel therapeutic agents for preservation of beta Recommendation 7: Encourage further research in identifying unique genetic cell function; markers in order to identify unique beta cell therapeutic targets APPENDIX Task Force: Alan J Garber, MD, PhD, FACE, Chair, ACE Task Force on the Prevention of Diabetes Yehuda Handelsman, MD, FACP, FACE, Program Chair, ACE Task Force on the Prevention of Diabetes Donald A Bergman, MD, FACE Daniel Einhorn, MD, FACP, FACE James R Gavin, III, MD, PhD George Grunberger, MD, FACP, FACE Paul S Jellinger, MD, MACE Harold Lebovitz, MD, FACE Philip Levy, MD, FACE Etie S Moghissi, MD, FACP, FACE
July 23, 2008, 9:45 am
Writing Panel: Alan J Garber, MD, PhD, FACE, Chair Donald A Bergman, MD, FACE Zachary Bloomgarden, MD, FACE Vivian Fonseca, MD, FACE Tim Garvey, MD James R Gavin, III, MD, PhD Yehuda Handelsman, MD, FACP, FACE Edward Horton, MD, FACE Paul Jellinger, MD, MACE Kenneth L Jones, MD Harold Lebovitz, MD, FACE Philip Levy, MD, MACE Darrin McGuire, MD Etie S Moghissi, MD, FACP, FACE Richard Nesto, MD Sponsors: Amylin Pharmaceuticals, Inc Daiichi Sankyo, Inc GlaxoSmithKline LifeScan, Inc Merck Co, Inc Novo Nordisk Inc Roche
Laboratories Inc Accurate at time of printing
Source:aace.com
