Presentation is loading. Please wait.

Presentation is loading. Please wait.

The Essentials John MacFadyen, MD FRCPC, MHPE

Similar presentations


Presentation on theme: "The Essentials John MacFadyen, MD FRCPC, MHPE"— Presentation transcript:

1 The Essentials John MacFadyen, MD FRCPC, MHPE
Canadian Diabetes Association 2013 Clinical Practice Guidelines The Essentials John MacFadyen, MD FRCPC, MHPE

2 CDA Guidelines - Essentials
Diagnostic Criteria Diabetes Pre-Diabetes Gylycemic Goals Approach to Glycemic Therapies Vascular Prevention Strategies What is not included in the guidelines

3 Fasting = no caloric intake for at least 8 hours
Diagnosis of Diabetes 2013 FPG ≥7.0 mmol/L Fasting = no caloric intake for at least 8 hours or A1C ≥6.5% (in adults) Using a standardized, validated assay, in the absence of factors that affect the accuracy of the A1C and not for suspected type 1 diabetes 2hPG in a 75-g OGTT ≥11.1 mmol/L Random PG ≥11.1 mmol/L Random= any time of the day, without regard to the interval since the last meal Script: Diabetes can be diagnosed by many different cut-offs. The biggest change from the previous set of guidelines is that HbA1c > 6.5% is part of diagnostic cut-off if a standardized validated assay is used with absence of other factors that affect A1c and not suspecting Dm. So FBG >7, A1c >6.5%, or 2h PG > 11.1 or random PG >11.1 can be used to used to diagnose diabetes. Diagnosis of diabetes is based on thresholds of glycemia that are associated with microvascular disease 2hPG = 2-hour plasma glucose; FPG = fasting plasma glucose; OGTT = oral glucose tolerance test; PG = plasma glucose

4 Diagnosis of Prediabetes*
2013 Test Result Prediabetes Category Fasting Plasma Glucose (mmol/L) Impaired fasting glucose (IFG) 2-hr Plasma Glucose in a 75-g Oral Glucose Tolerance Test (mmol/L) 7.8 – 11.0 Impaired glucose tolerance (IGT) Glycated Hemoglobin (A1C) (%) Prediabetes * Prediabetes = IFG, IGT or A1C %  high risk of developing T2DM

5 A1C Level and Future Risk of Diabetes: Systematic Review
A1C Category (%) 5-year incidence of diabetes <5 to 9% 9 to 25% 25 to 50% Script: Zhang et al did a systematic review on A1c level and future risk of diabetes and you as the A1C increased from 6.0 to 6.5%, this covereted to a 5-year incidence of diabetes across 25% -50%. Zhang X et al. Diabetes Care. 2010;33:

6 A1C ≤ 7.0% for MOST people with diabetes
2013 Targets Checklist A1C ≤ 7.0% for MOST people with diabetes A1C ≤ 6.5% for SOME people with T2DM A1C % in people with specific features

7 Please indicate your recommended A1C target for the following patient profiles:
 45 yo female with newly diagnosed DM on Metformin therapy < >9.0 65 yo male with DM x 15 years, on Metformin and Diamicron MR with history of prev. PCI and stable angina Class II 45 yo female from a group home, DM x 10 years on maximal oral agents   < >9.0 84 yo male from Nursing home, on Metformin, Diamicron MR and Lantus insulin   < >9.0

8 Speaker’s Notes This study demonstrated that the older a patient is upon diagnosis of type 2 diabetes, the less he or she is at risk of blindness or renal insufficiency. In addition, the effect of A1C on this risk also decreases with increasing age at diagnosis.

9 OUTCOME (INTENSIVE VS STANDARD) Median A1c (%) 6.4 vs 7.5 6.4 vs 7.0
ACCORD ADVANCE VADT OUTCOME (INTENSIVE VS STANDARD) Median A1c (%) 6.4 vs 7.5 6.4 vs 7.0 6.9 vs 8.4 CV death (%) 2.6 vs 1.8 4.5 vs 5.2 2.1 vs 1.7 Nonfatal MI 3.6 vs 4.6 2.7 vs 2.8 6.1 vs 6.3 Nonfatal stroke 1.3 vs 1.2 3.8 vs 3.8 2.0 vs 3.1 All-cause mortality 5.0 vs 4.0 8.9 vs 9.6 11.4 vs 10.6 Major hypoglycemia (requiring assistance) 3.1 vs 1.0 %/yr 0.7 vs 0.4 %/yr 3 vs 9 /100 pt-yr FACILITATOR NOTES The ACCORD study was stopped early because of a slight increase in CV and All-cause mortality in the intensively treated group as shown in the red. There was one macrovascular outcome in favour of intensive therapy which was non-fatal MI as shown in the green. Both ADVANCE and VADT showed no difference in macrovasular outcomes.

10 Individualizing A1C Targets
2013 Consider % if: which must be balanced against the risk of hypoglycemia

11 (depending on level of frailty)
2013 Among frail elderly Parameter Target A1C ≤ 8.5% FPG or preprandial glucose mmol/L (depending on level of frailty) AVOID HYPOGLYCEMIA FPG= fasting plasma glucose

12 A1c Average glucose 6% 7.0 7% 8.6 8% 10.1 9% 11.7 10% 13.3 11% 14.9
12% 16.5 ABG in mmol/L = (1.583 * A1c) – Nathan D, et al. Diab Care 31(8):1473-8, 2008.

13 Individualized Target A1C
Miller’s Rule: if patient > 70 years old then target A1C = age / 10 eg – age 85 – Target A1C 8.5

14 Individualized Target A1C
MacFadyen’s Corollary – added to Miller’s Rule If Advanced Vascular Complications Cognitive Impartment/Poor Self Care Significant Hypoglycemia Disease Duration > yrs then add 0.5 each – max 9.0 Eg Age MI + prev episode hypoglycemic seizure = Target – 8.5

15 Individualized Target Blood Glucoses
MacFadyen’s Rule Goal Glucose = Goal A1C -2 /+ 3 Eg. If target A1c is 8.5 most sugars should be between 6.5 – 11.5

16 Self-Monitoring of Blood Glucose (SMBG) What should we tell patients to do?

17 Regular SMBG is Required for:

18 Increased frequency of SMBG may be required:
Daily SMBG is not usually required if patient:

19 Physical Activity Checklist
2013 DO a minimum of 150 minutes of moderate-to vigorous-intensity aerobic exercise per week INCLUDE resistance exercise ≥ 2 times a week SET physical activity goals and INVOLVE a multi-disciplinary team ASSESS patient’s health before prescribing an exercise regimen

20 1. Modest weight loss CAN make a difference
Goal is to prevent weight gain, promote weight loss and prevent weight re-gain Weight loss of only 5-10% improves: Insulin sensitivity Glycemic control Blood pressure Lipid levels

21 Pharmacotherapy in T2DM checklist
2013 CHOOSE initial therapy based on glycemia START with Metformin +/- others INDIVIDUALIZE your therapy choice based on characteristics of the patient and the agent REACH TARGET within 3-6 months of diagnosis

22 L I F E S T Y 2013 AT DIAGNOSIS OF TYPE 2 DIABETES
Start lifestyle intervention (nutrition therapy and physical activity) +/- Metformin A1C <8.5% A1C 8.5% Symptomatic hyperglycemia with metabolic decompensation If not at glycemic target (2-3 mos) Start metformin immediately Consider initial combination with another antihyperglycemic agent Initiate insulin +/- metformin Start / Increase metformin If not at glycemic targets Add an agent best suited to the individual: Patient Characteristics Degree of hyperglycemia Risk of hypoglycemia Overweight or obesity Comorbidities (renal, cardiac, hepatic) Preferences & access to treatment Other Agent Characteristics BG lowering efficacy and durability Risk of inducing hypoglycemia Effect on weight Contraindications & side-effects Cost and coverage Other May start Metformin at the time of diagnosis Change to 8.5% as threshold Start metformin immediately as an option Concept of individualizing therapy based on patient and agent characteristics With that in mind, the next figure shows the characteristics of the agents …. 2013 See next page…

23 Make timely adjustments to attain target A1C within 3-6 months
From prior page… L I F E S T Y Concept of RELATIVE A1c lowering – not absolute Concept of RELATIVE cost considerations Change to achieve target within 3-6 months. If not at glycemic target Add another agent from a different class Add/Intensify insulin regimen 2013 Make timely adjustments to attain target A1C within 3-6 months

24

25 Consider weight effects when selecting antihyperglycemic medications
Weight Gain Weight Effect (kg) Insulin +4.5 to 5.0 Thiazolidenediones (TZDs) +4.2 to 4.8 Sulfonylureas +1.6 to 2.6 Meglitinides + 0.7 to 1.8 Weight Neutral or Decrease Weight Metformin -4.6 to 0.4 α-Glucosidase inhibitors +0.0 to 0.2 Dipeptidyl peptidase-4 (DPP-4) inhibitors +0.0 to 0.4 Glucagon-like peptide-1 (GLP-1) receptor agonists -1.3 to 3.0 Anti-Diabetes and Anti-Obesity Medications: Effects on Weight in People With Diabetes Priscilla Hollander, MD Abstract In Brief Choosing medications for people with diabetes involves consideration of a number of factors, including effects on weight. Improvements in glucose control are often linked to weight gain, but this does not have to be the inevitable result of diabetes treatment. Adding a drug that either promotes weight-loss or is weight neutral to one that promotes weight gain and providing medical nutrition therapy can be considered. Hollander, P. Diabetes Spectrum 2007; 20(3):

26 Antihyperglycemic agents and Renal Function
Not recommended / contraindicated Safe Caution and/or dose reduction Repaglinide Metformin 30 60 Saxagliptin Linagliptin Glyburide 50 Thiazolidinediones GFR (mL/min): < 15 15-29 30-59 60-89 ≥ 90 CKD Stage: 5 4 3 2 1 Gliclazide/Glimepiride 15 Liraglutide Exenatide Acarbose 25 Sitagliptin 2.5 mg 50 mg 25 mg Adapted from: Product Monographs as of March 1, 2013; CDA Guidelines 2008; and Yale JF. J Am Soc Nephrol 2005; 16:S7-S10.

27 Measure Lipids at Diagnosis
Repeat yearly if treatment not started Repeat q3-6mos if on treatment Fasting (8-hr) profile: Total cholesterol, triglycerides, HDL-C, LDL-C or Non-fasting profile: ApoB Non-HDL-C

28 Who Should Receive Statins?
2013 ≥40 yrs old or Macrovascular disease or Microvascular disease or DM >15 yrs duration and age >30 yrs or Warrant therapy based on the 2012 Canadian Cardiovascular Society lipid guidelines Among women with childbearing potential, statins should only be used in the presence of proper preconception counseling & reliable contraception. Stop statins prior to conception. guidelines.diabetes.ca | BANTING ( ) | diabetes.ca Copyright © 2013 Canadian Diabetes Association

29 If on therapy, target LDL ≤2.0 mmol/L

30 Second line agents : Only if LDL-C target not reached with statin
Bile acid sequestrants Cholesterol absorption inhibitors Fibrates Nicotinic acid

31 If Triglycerides > 10.0 mmol/L …
2013 If Triglycerides > 10.0 mmol/L … Use a FIBRATE to reduce the risk of pancreatitis Optimize glycemic control Implement lifestyle interventions Weight loss Optimal dietary strategies Reduce alcohol

32 Who Should Receive ACEi or ARB Therapy?
2013 Who Should Receive ACEi or ARB Therapy? ≥55 years of age or Macrovascular disease or Microvascular disease At doses that have shown vascular protection (ramipril 10 mg daily, perindopril 8 mg daily, telmisartan 80 mg daily) Among women with childbearing potential, ACEi or ARB should only be used in the presence of proper preconception counseling & reliable contraception. Stop ACEi or ARB either prior to conception or immediately upon detection of pregnancy

33 Hypertension Checklist
2013 ASSESS for hypertension (≥ 130/80 mmHg) TREAT to target < 130/80 mmHg USE multiple antihypertensive medications if needed to achieve target (often necessary) USE initial combination therapy if systolic blood pressure > 20 mmHg or diastolic blood pressure > 10 mmHg above target

34 ADA 2013 Hypertension/Blood Pressure Control has been revised to suggest that the systolic blood pressure goal for many people with diabetes and hypertension should be <140 mmHg, but that lower systolic targets (such as <130 mmHg) may be appropriate for certain individuals, such as younger patients, if it can be achieved without undue treatment burden.

35 No. of events/No. in group
ASA Control/placebo RR (95% CI) RR (95% CI) Major CV events ASA for 1⁰ Prevention in Diabetes Meta analysis of 6 studies (n = 10,117) JPAD POPADAD WHS PPP ETDRS Total 68/1262 105/638 58/514 20/519 350/1856 601/4789 86/1277 108/638 62/513 22/512 379/1855 657/4795 0.80 ( ) 0.97 ( ) 0.90 ( ) 0.90 ( ) 0.90 ( ) 0.90 ( ) Myocardial infarction JPAD POPADAD WHS PPP ETDRS PHS Total 28/1262 90/638 36/514 5/519 241/1856 11/275 395/5064 14/1277 82/638 24/513 10/512 283/1855 26/258 439/5053 0.87 ( ) 1.10 ( ) 1.48 ( ) 0.49 ( ) 0.82 ( ) 0.40 ( ) 0.86 ( ) No overall benefit for: Major CV events MI Stroke CV mortality All-cause mortality Stroke JPAD POPADAD WHS PPP ETDRS Total 12/1262 37/638 15/514 9/519 92/1856 181/4789 32/1277 50/638 31/513 10/512 78/1855 201/4795 0.89 ( ) 0.74 ( ) 0.46 ( ) 0.89 ( ) 1.17 ( ) 0.83 ( ) Death from CV causes This meta-analysis examined whether ASA is beneficial for patients with diabetes who have no clinical evidence of CVD. Of 6 eligible studies included in the meta-analysis of over 10,000 participants, there is no statistically significant reduction in the risk of Major CV events, MI, stroke, CV mortality or all-cause mortality when ASA was compared with placebo for primary prevention among patients with diabetes. Of 157 studies in the literature searches, six were eligible (10,117 participants). When ASA was compared with placebo, there was no statistically significant reduction in the risk of major CV events (five studies, 9,584 participants; RR 0.90; 95% CI ), CV mortality (four studies, 8,557 participants; RR 0.94; 95% CI ), or all-cause mortality (four studies, 8,557 participants; RR 0.93; 95% CI ). Significant heterogeneity was found in the analyses for MI (I2 = 62.2%; p = 0.02) and stroke (I2 = 52.5%; p = 0.08). ASA significantly reduced the risk of MI in men (RR 0.57; 95% CI ) but not in women (RR 1.08; 95% CI ; p for interaction = 0.056). Evidence relating to harms was inconsistent. These authors concluded that a clear benefit of ASA in the primary prevention of major CV events in people with diabetes remains unproved, that sex may be an important effect modifier, and that toxicity is to be explored further. The analysis shows ASA has benefit for men in prevention of MI but not for stroke prevention, but no benefit in women for either MI or stroke prevention Reference: De Berardis G, Sacco M, Strippoli GF, et al. Aspirin for primary prevention of cardiovascular events in people with diabetes: meta-analysis of randomised controlled trials. BMJ 2009; 339:b4531. JPAD POPADAD PPP ETDRS Total 1/1262 43/638 10/519 244/1856 298/4275 10/1277 35/638 8/512 275/1855 328/4282 0.10 ( ) 1.23 ( ) 1.23 ( ) 0.87 ( ) 0.94 ( ) JPAD = Japanese Primary Prevention of Atherosclerosis with Aspirin for Diabetes POPADAD = Prevention of Progression of Arterial Disease and Diabetes PPP = Primary Prevention Project ETDRS = Early Treatment Diabetic Retinopathy Study PHS = Physicians’ Health Study WHS = Women’s Health Study De Beradis G, et al. BMJ 2009; 339:b4531. All-cause mortality JPAD POPADAD PPP ETDRS Total 34/1262 94/638 25/519 340/1856 493/4275 38/1277 101/638 20/512 366/1855 525/4282 0.90 ( ) 0.93 ( ) 1.23 ( ) 0.91 ( ) 0.93 ( ) 2 0.03 0.125 0.5 1 8 Favors ASA Favors control/placebo

36

37 Chronic Kidney Disease (CKD) Checklist
2013 Chronic Kidney Disease (CKD) Checklist SCREEN regularly with random urine albumin creatinine ratio (ACR) and serum creatinine for estimated glomerular filtration rate (eGFR) DIAGNOSE with repeat confirmed ACR ≥ 2.0 mg/mmol and/or eGFR < 60 mL/min DELAY onset and/or progression with glycemic and blood pressure control and ACE inhibitor or angiotensin receptor blocker (ARB) PREVENT complications with “sick day management” counselling and referral when appropriate Use same check marks as Geetha

38 2013 CKD in diabetes ACR ≥ 2.0 mg/mmol and/or eGFR < 60 mL/min

39 Reducing progression of diabetic nephropathy
Optimal glycemic control Optimal blood pressure control ACE-inhibitor or Angiotensin receptor blocker (ARB)

40 Counsel all Patients About Sick Day Medication List
2013

41 Bariatric Surgery is Appropriate in Select Refractory Cases
2013 Bariatric Surgery is Appropriate in Select Refractory Cases Class III (BMI ≥ 40 kg/m2), or class II (BMI kg/m2) obesity with comorbidities Assessment by interdisciplinary team Medical, surgical, psychiatric, and nutritional Laparoscopic Roux-en-Y gastric bypass or biliopancreatic diversion with duodenal switch Long-term medical follow up Be aware of any provincial regulations with respect to bariatric surgery

42 What isn’t in the CDA Guidelines but still important to consider

43 Exenatide: 68% of 3-Year Completers Both Lost Weight and Had Reduced HbA1c
15 10% 6% 10 5 CITATION Klonoff DC, Buse JB, Nielsen LL, et al. Exenatide effects on diabetes, obesity, cardiovascular risk factors and hepatic biomarkers in patients with type 2 diabetes treated for at least 3 years. Curr Med Res Opin. 2008;24: SEE pg 280 Figure 3-B (for slide data and background information) DISCUSSION Two hundred seventeen patients in the 3-year completer population were analyzed by body weight change and HbA1c change to reach the following conclusions. The majority of patients experienced reduction in both HbA1c and body weight: 68% of patients experienced reduction in HbA1c and body weight 16% of patients experienced increased HbA1c and decreased body weight 10% of patients experienced decreased HbA1c and increased body weight 6% of patients experienced increased HbA1c and body weight SLIDE BACKGROUND Patients with type 2 diabetes mellitus treated with metformin (MET) and/or sulphonylurea (SFU) were randomized to receive placebo or exenatide in the original placebo-controlled, double- blind, Phase 3, randomized trials and received exenatide in the subsequent open-label extension. At the time of this analysis, all patients (N=217) had received 3 years of exposure to exenatide. -5 Weight Change from Baseline (kg) -10 -15 -20 -25 68% 16% -30 -5 -4 -3 -2 -1 1 2 3 4 5 HbA1c Change from Baseline (%) N=217 Adapted from Klonoff DC, et al. Curr Med Res Opin 2008;24: 43

44 What is not included in the CDA Guidelines
Ensure that evidence for glycemic benefit with incretin agents Consider adding back oral agents to patients on insulin if no previous exposure Identify “super-responders”

45 “Neither evidence nor clinical judgment alone is sufficient
“Neither evidence nor clinical judgment alone is sufficient. Evidence without judgment can be applied by a technician. Judgment without evidence can be applied by a friend. But the integration of evidence and judgment is what the healthcare provider does in order to dispense the best clinical care.” (Hertzel Gerstein, 2012)

46 CDA Clinical Practice Guidelines
– for professionals 1-800-BANTING ( ) – for patients


Download ppt "The Essentials John MacFadyen, MD FRCPC, MHPE"

Similar presentations


Ads by Google