Heart Failure: The Frequent, Forgotten and often Fatal Complication of Type 2 Diabetes

Heart Failure: The Frequent, Forgotten and often Fatal Complication of Type 2 Diabetes DAVID S. H. BELL CHAIRMAN BELL, DSH. DIABETES CARE(2003)26:2433-41.

Speaker s Bureau: AstraZeneca Novo Nordisk Janssen

Etiology and Prevalence of Diabetic Heart Failure David S. H. Bell MB, FACE, FRCP, FRCPS(Can), FRCP (Ed) Professor of Medicine (Retired) University of Alabama Southside Endocrinology Birmingham, AL

The Rest of the Story? Two CVD Disorders 1) Disorders of perfusion due to atherosclerosis 2) Disorders of cardiac structure and function due to LVH and LV dysfunction

Congestive Heart Failure Is More Common in Patients With Type 2 Diabetes Prevalence Rate per 1000 400 300 200 100 No Diabetes Diabetes Incidence Rate per 1000 80 60 40 20 0 0 <45 40 50 60 70 80 90 95+ 100 <45 40 50 60 70 80 90 100 95+ Age at Baseline Nichols, GA, et al. Diabetes Care. 2001; 24: 1614-9

DIABETES STATUS AND OUTCOMES IN HEART FAILURE Kristensen, SL. Circ Heart Fail(2016)9(1)e0025

CHEMO-RELATED CARDIOTOXICITY 83 PATIENTS (54 BREAST, 20 LYMPHOMA, 9 GASTRIC) PRESENCE OF REDUCED E# AND GLOBAL LONGITUDINAL STRAIN IN DIABETIC SUBJECTS Gomez, AC. Euro Echo-Imaging(2016) Leipzig Germany Dec 7-10.

Cardiotoxic Triad Diabetic cardiomyopathy Hypertension Myocardial ischemia Macrovascular Microvascular No lactate increase during atrial pacing Endothelial dysfunction leading to vasconstriction, reperfusion injury, and myocardial fibrosis Endothelial dysfunction leading to vessel permeability and myocardial fibrosis Genda A et al. Clin Cardiol. 1986;9:375-382. Ahmed SS et al. Am Heart J. 1975;89:153-158. Factor SM et al. The Diabetic Heart. 1991;89:101.

Diabetic Cardiomyopathy 1) Diastolic Dysfunction 30% by Echo 52% - 60% using pulse waved doppler examinations during second stage of valsalva maneuver Frequency proportional to A 1C Degree proportional to level of microalbuminuria Redfield MM JAMA (2003) 289:194-202 Poirier P Diabetes Care (2001) 24:5-10 Devereux JB Circulation (2000) 101:2271-6 Liu JE J Am Coll Cardiol (2003) 42:2022-8

MECHANISMS FOR DIABETIC CARDIOMYOPATHY (2) 4) BIOCHEMICAL - Ca AND K CHANNELS - Na/Ca EXCHANGERS - Ca BINDING PROTEINS - MITOCHONDRIAL Ca UNIPORTER 5) UPREGULATION OF RAS 6) OXIDATIVE STRESS 7) GLYCATION OF PROTEINS 8) ACTIVATION OF PKC

MECHANISMS FOR DIABETIC CARDIOMYOPATHY (1) 1) ENDOTHELIAL DYSFUNCTION 2) AUTONOMIC NEUROPATHY - IMPAIRED VASODILATION TO SYMPATHETIC RESPONSE - IMPAIRED CONTRACTILITY 3) METABOLIC - GLUCOSE LACTATE METABOLISM - ENHANCED FFA METABOLISM LIPID ACCUMULATION LIPOTOXICITY APOPTOSIS

CERAMIDE MYOCARDIAL APOPTOSIS IR INSULIN LVH GLUCOSE MICROVASCULAR GLYCOSOCATION FIBROSIS PROPOSED ETIOLOGY OF DIABETIC CARDIOMYOPATHY

LV Hypertrophy and Diabetes Framingham Study: Women with diabetes had a ventricular mass 22% greater than their nondiabetic peers 1 Tayside Study: LV hypertrophy present in 32% of normotensive patients with type 2 diabetes independent of CAD, ACEIs, or HTN 2 Echocardiographic study of 371 subjects with type 2 diabetes showed that 71% had LV hypertropy 3 Relative risk of death in African Americans with*,4 : LV hypertrophy: 2.4 LV systolic dysfunction (EF 45%): 2.0 Coronary artery disease: 1.6 *Based on cohort study from a hospital registry with a mean follow-up of 5 years. 26.1% of those studied had diabetes. 1. Galderisi M. Am J Cardiol. 1991;68:85 89. 2. Struthers AD. Lancet. 2002;359:1430 1432. 3. Dawson A et al. Diabetologia. 2005;48:1971 1979. 4. Liao Y. JAMA. 1995;273:1592 1597.

Myocardial Remodeling Sustained Increase in Cardiac Volume Hyperinsulinemia Hyperglycemia Connelly CM, et al. Circulation. 1991;84:387-399. Ohya Y, et al. Hypertension. 1996;27:729-734.

Cardiac Remodeling Gothic Arch Dysfunction Roman Arch Fibrosis Normal Left Ventricle Reversal of Remodeling Remodeled / Dilated Left Ventricle Reduced Wall Compliance Increased Wall Stress Increased Filling Pressure Coghlan HC, Coghlan L. Semin Thorac Cardiovasc Surg. 2001;13:417-430. Decreased Contractile Performance

Progression of Cardiovascular Disease Coronary artery disease Arrhythmia Hypertension Left ventricular injury Pathologic remodeling LV dysfunction Death Diabetic Cardiomyopathy Diabetes (Metabolic Syndrome) (Hypertrophy, Myocyte Loss, Fibrosis) Neurohormonal activation Pump failure

TRACE: Effect of Trandolapril on CHF Progression after Acute MI Diabetics Non-Diabetics 0.5 0.4 Placebo 0.5 0.4 0.3 0.3 Placebo 0.2 Trandolapril 0.2 0.1 0.1 Trandolapril 0.0 0 Relative risk, 0.38 p <0.001 1 2 3 4 Years 0.0 0 Relative risk, 0.81 p = 0.1 1 2 3 4 Years TRACE JACC 1999; 34; 83-89

Mortality Risk Reduction (%) Meta-Analysis of COREG Placebo-Controlled Outcomes Trials (HF or Post-MI LVD): Mortality 0 5 10 15 20 25 30 All Patients Patients Without DM Patients With DM 35 40 P.0001 P.0001 P=.029 Treatment by Diabetes Interaction P=NS Meta-analysis of trials include: US Carvedilol Trials, ANZ Heart Failure study, CAPRICORN, and COPERNICUS. All patients with LVD in these trials were included in the meta-analysis. Bell DSH et al. Curr Med Res Opin. 2006;22:287 296.

VALSARTAN/SACUBITRIL SUPRESSION OF RAS SACUBITRIL INHIBITS NEUTRAL ENDOPETIDASE WHICH DEGRADES VASOACTIVE PEPTIDES (ANP, BNP) SUPRESSION ENDOGEOUS COUNTER BALANCE TO RAS INHIBITION CONSISTENT REDUCTION OF HEART, WEIGHT AND CARDIAC FIBROSIS INDEPENDENT OF BP CONTROL REDUCES PROTEINURIA, RETINOPATHY IN DIABETIC SUBJECTS IN PARADIGM-HF TRIAL WITH REDUCED EF BETTER THAN ENALARIL FOR DECREASING MORTALITY AND HOSPITALIZATION FOR HF ACROSS THE HbA1c SPECTRUM Uiyl,E. Curr Hypertens Rep(2016)18(12)86. Kristensen, SL. Circ Heart Fail(2016)9(1)

TREATMENT EFFECTS OF SACUBITRIL/VALSARTAN VERSUS ACE INHIBITOR RR 95% CI HF HOSP/CV DEATH 0.87 0.77-0.98 CV DEATH 0.92 0.77-1.09 HF HOSP 0.79 0.67-0.94 MORTALITY (ALL CAUSE) 0.97 0.83-1.14 CLINICAL SCORE 0.86 0.74-1.01 Kristensen, SL. Circ Heart Fail(2016)9(1)e002560.

HEART FAILURE normal EJECTION FRACTION (HFnEF) 40%-60% ADMISSIONS WITH HF DIABETES 45% OTHER FACTORS AGE, FEMALE HYPERTENSION, OBESITY, AF, CAD Mentz, RJ. J Am Coll Cardiol(2014)64(21)2281-93.

Diastolic Dysfunction Documented in young diabetic patients, most of whom have type 1 DM 30% incidence on standard echocardiography With more rigorous Doppler methods, early diastolic dysfunction can be diagnosed Diastolic dysfunction seen in 52% of diabetic patients in Olmstead County, Minnesota Diastolic dysfunction seen in 60% of diabetic patients in Quebec, Canada Discharge diagnosis of idiopathic cardiomyopathy more common in the diabetic patient Schannwell CM et al. Cardiology. 2002;98:33-39. Di Bonito P et al. Diabet Med. 1996;13:321-324. Redfield MM et al. JAMA. 2003;289:194-202. Poirier P et al. Diabetes Care. 2001;24:5-10. Bertoni AG et al. Diabetes Care. 2003;26:2791-2795.

HPnEF 1) LARGE CLINICAL TRIALS HAVE NOT SHOWN LIMITED EVIDENCE OF CLINICAL BENEFIT 2) AGGRESSIVE MANAGEMENT OF CONTRIBUTING FACTORS HTN, AF, MYOCARDIAL ISCHEMIA AND SLEEP APNEA BENEFICIAL 3) DIURETICS TO IMPROVE DYSPNEA 4) AVOID UNBENEFICIAL THERAPIES 5) SALT AND WATER RESTRICTON, EXERCISE Basaraba JE, Barry AR. Pharmacotherapy(2015)35(4)351-60.

LOWERING LEFT ATRIAL PRESSURE IN HFnEF (1) 1) THERAPEUTIC OPTIONS LIMITED 2) INCREASED LEFT ATRIAL PRESSURE ESPECIALLY DURING EXERCISE IS A KEY CONTRIBUTOR TO SYMPTOMS 3) 8 mm PERMANENT SHUNT IN ATRIAL SEPTUM TO LOWER LEFT ATRIAL PRESSURE 4) AT 30 DAYS LV FILLING PRESSURE REDUCED FROM 19.7 TO 14.2 mmhg (p=0.005) 5) NYHA CLASS IMPROVED IN 63.6% OF SUBJECTS 6) NO PULMONARY HYPERTENSION Søndergaard, L. Eur J Heart Fail(2014)16(7)196-801.

DIAGNOSIS AND Rx OF DIABETIC HF SIGNS AND SYMPTOMS BNP/PRO-BNP ECHO <40% >40% Rx UNDERLYING PATHOLOGY (HTN+HF) REVASCULARISATION EXERCISE SLEEP ANEA B-BLOCKERS ALDOSTEONE BLOCKADE VALSARTAN/SACUBITRIL (ENTRESTO)

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