Metabolic Syndrome Dr. Hasan AYDIN
Metabolic Syndrome Clustering of cardiovascular risk factors Central obesity Diabetes Hypertension Dyslipidemia
Definition
First report The degree of masculine differentiation to obesity: a factor determining predisposition to diabetes, atherosclerosis, gout and uric calculus disease. (Vague Am J Clin Nutr 4:20, 1956)
Syndrome X Reaven 1988 –Insulin resistance –Glucose intolerance –Raised triglycerides –Low HDL cholesterol –Hypertension
The Metabolic Syndrome Proposed Definitions WHO Main criteria Insulin resistance OR DM / IGT / IFG Other components 1)Blood pressure ≥140/90 2)Dyslipidemia 3)Central obesity 4)Microalbuminura (two or more) ATPIII 1)Abdominal obesity 2)High triglycerides 3)Low HDL cholesterol 4)Blood pressure ≥130/85 5)High fasting glucose (three or more) EGIR Main criteria Insulin resistance Other components 1)Hyperglycemia 2) Blood pressure ≥140/90 3)Dyslipidemia 4)Central obesity (two or more)
NCEP ATP III Working Definition of the Metabolic Syndrome Risk factorsDefining Level Abdominal obesity (Waist circumference) Men>102 cm Women>88 cm Triglycerides≥150 mg/dl HDL cholesterol Men<40 mg/dl Women<50 mg/dl Blood pressure≥130/≥85 mmHg Fasting glucose≥110 mg/dl ≥3 of the following
Metabolic Syndrome increases with age Inter99 (n=6.784)
Prevalence in Turkey METSAR Study
Waist Measurements (cm) METSAR Study
Waist Measurements Age Groups METSAR Study
Abdominal Obesity METSAR Study
What causes metabolic syndrome? Genetic predisposition Ethnicity Lifestyle and culture of inactivity and obesity Aging
The Metabolic Syndrome Abdominal obesity Lipolysis FFA oxidation Insulin resistance VLDL Triglyceride HDL Hyperglycemia Hypertension Endothelial dysfunction Microalbuminuria Physical inactivity
Pathogenesis of MS Type 2 Diabetes Hypertension Dyslipidemia Central obesity Insulin Resistance
Environmental and genetic factors determine insulin sensitivity Variability in insulin sensitivity is accounted for by: Adiposity25-30% Physical fitness25-30% Genetic factors40-50% Insulin resistance = decreased ability of peripheral tissues to respond properly to normal circulating concentrations of insulin
Assessment of Insulin Sensitivity Gold Standard: Hyperinsulinemic clamp Glycemia Insulinemia Glucose Infusion Rate
Assessment of Insulin Sensitivity Fasting insulin Homeostasis Model Assessment (HOMA-IR) Insulin (mU/ml) x Glucose (mmol/l) / 22.5 Quantitative Insulin Sensitivity Check Index (QUICKY) 1/[log Insulin (mU/ml) + log Glucose (mg/dl)] Oral Glucose Tolerance Test (OGTT) Intravenous Glucose Tolerance Test (IVGTT)
Insulin sensitivity in healthy lean and obese subjects
Role of body fat distribution Normal Type 2 diabetes
Question Do lean insulin sensitive, lean insulin resistant, and obese insulin resistant subjects have similar abdominal fat distribution?
Body Mass Index and Insulin Sensitivity LISLIROIR BMI (kg/m 2 ) **,ˆ LISLIROIR SI (x10 -5 min -1 /pM) **,ˆ ** (Cnop et al. Diabetes 51:1005, 2002)
S I (x10 -5 min -1 /pM) Intra-abdominal fat is highly predictive of insulin sensitivity
Adipose tissue: an endocrine organ Fat Adiponectin FFA Insulin Resistance TNF IL-6, Leptin, Resistin
The Metabolic Syndrome Type 2 Diabetes Hypertension Dyslipidemia Central obesity Insulin Resistance
Type 2 Diabetes GeneticReactive Hypoglycemia Glucose Intolerance Preclinical Diabetes Early Clinical Diabetes Overt Diabetes Late Clinical Period Insulin Resistance Insulin Secretion Asymptomatic Period Symptomatic period
NFollow upDefinitionDevelopment of diabetes SAHS1, yearsNCEPOR=3.3 Strong Heart study2, yearsNCEP√ Kuopio (men only)1,0054 yearsWHO NCEP OR=8.0 OR=5.0 Mauritius2,6055 yearsOther√ Does the metabolic syndrome predict incident diabetes?
Resnick H et al. Diabetes Care 2003 Tertile of HOMA-IR Does hyperinsulinemia predict diabetes? Percent (%)
The Metabolic Syndrome Type 2 Diabetes Hypertension Dyslipidemia Central obesity Insulin Resistance
The Metabolic Syndrome and Hypertension Intra-abdominal adiposity and insulin resistance are associated with increased: – Sodium retention and sensitivity – Angiotensinogen and angiotensin II levels – Sympathetic activity – PAI-1 levels – Cortisol production in visceral fat compartment
Dyslipidemia and the Metabolic Syndrome VLDL IDL LDL buoyant dense HDL Cholesterol (mg/dl) Insulin Resistant Insulin Sensitive Adiponectin
NFollow upMenWomen Busselton years√ns Helsinki Policemen years√-- Helsinki Policemen97022 years√-- SAHS25698 years√√ DECODE6156 men years√√ Does Hyperinsulinemia predict CVD?
Does MS predict CVD? ATP III metabolic syndrome Percent %
HRCHDCVDStrokeCHD - death CVD- death All-cause mortality Botnia Study, n=4, Kuopio, (men) n=1, DECODE, n=6, (m) 2.78(w) 1.44(m) 1.38(w) Trevisan,Italy n= 41, (m) 17.8(w) 2.49(m) 15.9(w) 1.95(m) 2.54(w) Strong Heart, n=2,283 --n.s.-- Does the metabolic syndrome predict CVD?
How Insulin Resistance leads to coronary disease Insulin resistance Environmental influences Genetic influences Hyperinsulinemia Glucose intolerance Increased triglycerides Decreased HDL Increased BP Small, dense LDL Increased uric acid Increased PAI-1 Coronary Artery Disease
NAFLD Oxidative stress Coagulopathy Inflammation Endothelial dysfunction Sleep apnea syndrome Polycystic ovary syndrome Heart failure Breast cancer Insulin Resistance Macrovascular Disease Obesity Hypertension Hyperglycemia Dyslipidemia Macrovascular Disease
Medical Evaluation of Metabolic Syndrome Physical Exam –Blood Pressure –BMI –Waist Circumference –Atheromas –Skin Tags Lab Evaluation –Fasting Glucose –Lipid –Homocysteine –hsCRP –Uric Acid –TSH –A1c –ALT –Creatinine
Treatment
Therapy for Insulin Resistance Nonpharmacologic / Pharmacologic Exercise Weight control Diet Smoking cessation
Modest Weight Loss Can Drastically Reduce Visseral Fat Before Weight Loss After 10 kg Weight Loss (95 kg, BMI 32) (85 kg, BMI 29)
NCEP/ATP III Guidelines Clinical Management of the Metabolic Syndrome Management of underlying cause –Weight control enhances LDL lowering and reduces all risk factors –Physical activity reduces VLDL, increases HDL, and may lower LDL Management of lipid and nonlipid risk factors –Treat hypertension –Use of aspirin in CHD patients –Treat elevated triglycerides and low HDL
Dietary Interventions Reduce calories Reduce saturated fat Increase whole grains Increase fruits and vegetables Eat fish 1-2 times per week Use monounsaturated or polyunsaturated oils –Olive, Canola, and Peanuts –Safflower, Sunflower or Sesame seed, Corn, or Soy
Exercise Interventions Goal for Patients: 240 minutes of purposeful activity per week Write exercise prescription 10,000 steps per day
Treatment: Lifestyle Finnish Diabetes Prevention Study STOP-NIDDM Trial US Diabetes Prevention Program 7% weight loss 150 min/week exercise Reduction of diabetes incidence by 60% Compared to 25-30% reduction for pharmacological intervention
Pharmacologic Management Aggressive Treatment of Hypertension –ACE Inhibitor is the drug of choice –Beta Blockers promote weight gain –Thiazide diuretics increase insulin resistance Metformin 500mg BID—diabetes prevention Lipid—Statin medication or combination Aspirin for Everyone!!! Excellent Candidates for Aggressive Weight loss intervention –Healthy Ways –Weight Loss Meds: Sibutramine, Orlistat –Aggressive Dietary Intervention: VLCD if BMI>27
Treatment: Drugs Underlying conditions (hypertension, diabetes, lipid disorders) should be treated. An aggressive and early treatment strategy has been proposed. Therapeutic agents might include fibrates, statins, metformin, thiazolidinediones, and, possibly, dual PPAR- and agonists. No consensus optimal treatment targets have been determined and pharmacotherapy remains at present unproven.
Does Treating the Metabolic Syndrome Make a Difference? Finnish Diabetes Prevention Study
Diabetes Prevention Program: Change of BMI – 1 year
Diabetes Prevention Program: Goal Achievement
Diabetes Prevented
In Summary—Be Aggressive! Identify patients with Metabolic Syndrome Aggressive Lifestyle Intervention Aggressive Pharmacologic Intervention –BP –Lipid –Metformin –Aspirin –Weight Loss Therapies
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