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CONGESTIVE HEART FAILURE. MA. LENY ALDA G. JUSAYAN, MD. HEART FAILURE. Inability of the heart to pump an adequate amount of blood to the body’s needs CONGESTIVE HEART FAILURE – refers to the state in which abnormal circulatory congestion exists a result of heart failure.
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CONGESTIVE HEART FAILURE MA. LENY ALDA G. JUSAYAN, MD
HEART FAILURE • Inability of the heart to pump an adequate amount of blood to the body’s needs • CONGESTIVE HEART FAILURE – refers to the state in which abnormal circulatory congestion exists a result of heart failure
CAUSES OF HEART FAILURE: • Final common pathway of many kinds of heart diseases • Ischemic, alcoholic, restrictive, hypertrophic • Optimal treatment requires identification of primary & secondary factors leading to CHF • HELPFUL RESULT of dilatation: increases cardiac output • HARMFUL RESULT of dilation: more wall tension, more oxygen is needed to produce any given stroke volume
CLASSIFICATION: • SYSTOLIC DYSFUNCTION: • Inadequate force is generated to eject blood normally • Reduce cardiac output, ejection fraction (< 45%) • Typical of acute heart failure • Secondary to AMI • Responsive to inotropics
CLASSIFICATION: • DIASTOLIC DYSFUNCTION • Inadequate relaxation to permit normal filling • Hypertrophy and stiffening of myocardium • Cardiac output may be reduced • Ejection fraction is normal • Do not respond optimally to inotropic agents
CLASSIFICATION: • HIGH OUTPUT FAILURE • Increase demand of the body with insufficient cardiac output • Hyperthyroidism, beri-beri, anemia, AV shunts • Treatment is correction of underlying cause
CLASSIFICATION: • ACUTE HEART FAILURE • Sudden development of a large myocardial infarction or rupture of a cardiac valve in a patient who previously was entirely well, usually predominant systolic dysfunction
CLASSIFICATION: • CHRONIC HEART FAILURE • Typically observed in patients with dilated cardiomyopathy or multivalvular heart diseases that develops or progresses slowly
PRECIPITATING CAUSES OF HEART FAILURE: • Infection • Anemia • Thyrotoxicosis & pregnancy • Arrythmias • Rheumatic, viral & other forms of myocarditis • Infective endocarditis • Systemic hypertension • Myocardial infarction • Physical, dietary, fluid, environmental & emotional excesses • Pulmonary embolism
PULMONARY CONGESTION & RESPIRATORY SYMPTOMS: • Result of dilatation & increasing left ventricular end diastolic pressure, left atrial pressure & capillary pressures • Results to pulmonary vascular congestion & symptoms associated with cough with blood tinged sputum
Cont. • EDEMA OF THE BRONCHIAL MUCOSA • Increases resistance to airflow producing respiratory distress similar to asthma (cardiac asthma)
Cont: • DYSPNEA • Results from reflexes initiated by vascular distention • Increased rigidity of lungs & impaired gas exchange resulting from interstitial edema • Accumulation of fluid in ALVEOLARS SACS (pulmonary edema)
Cont. TACHYCARDIA • An early compensatory response mediated by increased sympathetic tone EDEMA • compensatory response mediated by the renin angiotensin aldosterone system & by increased sympathetic outflow CARDIOMEGALY • a compensatory structural response
SYMPTOMS: • Due to inadequate perfusion of peripheral tissues (fatigue, dyspnea) • Elevated intracardiac filling pressures (orthopnea, PND, peripheral edema)
PHYSICAL EXAM: • Jugular venous distention • S3 • Rales • Pleural effusion • Edema • Hepatomegaly • Ascites
“All the signs of CHF are the consequences of inadequate force of contraction"
PATHOPHYSIOLOGY: • STARLING’S LAW “Within limits, the force of ventricular contraction is a function of the end-diastolic length of the cardiac muscle, which in turn is closely related to the ventricular end-diastolic volume.”
PATHOPHYSIOLOGY: • Heart failure results in DEPRESSION of the ventricular function curve • COMPENSATION in the form of stretching of myocardial fibers results • Stretching leads to cardiac dilatation which occurs when the left ventricle fails to eject its normal end diastolic volume
CARDIAC FAILURE VENOUS PRESSURE CARDIAC OUTPUT SYMPATHETIC ACTIVITY BLOOD PRESSURE RENAL BLOOD FLOW RENIN ANGIOTENSIN II ALDOSTERONE CAPILLARY FILTRATION SODIUM RETENTION EDEMA
NEUROHUMORAL ACTIVATION DURING MYOCARDIAL FAILURE MYOCARDIAL FAILURE CARDIAC OUTPUT BLOOD PRESSURE/TISSUE PERFUSION ACTIVATION OF ADRENERGIC SYSTEM ARTERIOLAR CONSTRICTION INCREASED SYSTEMIC VASCULAR RESISTANCE INCREASED RESISTANCE TO EJECTION
COMPENSATORY RESPONSES DURING HEART FAILURE: CARDIAC OUTPUT CAROTID SINUS FIRING RENAL BLOOD FLOW SYMPATHETIC DISCHARGE RENIN RELEASE FORCE RATE PRELOAD AFTERLOAD REMODELING • CARDIAC OUTPUT (VIA COMPENSATION)
CLINICAL MANAGEMENT OF CONGESTIVE HEART FAILURE • OBJECTIVES: • Increase cardiac contractility • Decrease preload ( left ventricular pressure) • Decrease afterload (systemic vascular resistance) • Normalize heart rate and rhythm
Approaches:Reduce workload of heart • 1.Limit activity level reduce weight control hypertension • 2. Restrict sodium (low salt diet)3. Give diuretics (removal of retained salt and water)4. Give angiotensin-converting enzyme inhibitors(decreases afterload and retained salt and water)5. Give digitalis (positive inotropic effect on depressed heart)6. Give vasodilators (decreases preload & afterload)
DRUGS USED TO TREAT CONGESTIVE HEART DISEASE: • VASODILATORS • Reduce the preload (through venodilatation), or reduction in afterload (through arteriolar dilatation) or both • Decrease the load of the myocardium
DIURETIC AGENTS: • Reduce salt & water retention, thereby reducing ventricular preload INOTROPIC AGENTS: • Increase the strength of contraction of cardiac muscles
DRUGS USED TO TREAT CONGESTIVE HEART FAILURE VASODILATORS INOTROPIC AGENTS • CAPTOPRIL • ENALAPRIL • FOSINOPRIL • LISINOPRIL • QUINAPRIL • HYDRALAZINE • ISOSORBIDE • MINOXIDIL • SODIUM NIITROPRUSSIDE -DIGOXIN -DIGITOXIN -DOBUTAMINE -AMRINONE -MILRINONE DIURETICS -BUMETANIDE -FUROSEMIDE -HYDROCHLOROTHIAZIDE -METALAZONE
BASIC PHARMACOLOGY OF DRUGS USED IN CONGESIVE HEART FAILURE: DIGITALIS PHARMACOKINETICS: DIGOXIN DIGITOXIN • LIPID SOLUBILITY MEDIUM HIGH • ORAL AVAILABILITY 75% >90% • HALF-LIFE 40 HRS 168 HRS • PLASMA PROTEIN BINDING 20-40 HRS >90 HRS • PERCENTAGE METABOLIZED <20 >80 • VOLUME OF DISTRIBUTION 6.3 L/KG 0.6 L/KG
PHARMACOKINETICS: -T1/2 is long (40 hrs)-Therapeutic plasma concentration: 0.5-2 ng/ml-Toxic plasma concentration: >2 ng/ml *digitalis must be present in the body in certain "saturating" amount before any effect on congestive failure is noted this is achieved by giving a large initial dose in a process called "digitalization" -after intial dosages, digitalis is given in "maintenance" amounts sufficient to replace that which is excreted to avoid exceeding therapeutic range during digitalization:- the loading dose should be adjusted according to the health of the patient- slow digitalization (over 1 week) is the safest technique- plasma digoxin levels should be monitored
METABOLISM & EXCRETION: • Digoxin – not extensively metabolized, 2/3 excreted unchanged in the kidneys • Digitoxin – metabolized in the liver and excreted into the gut via the bile
MECHANISM OF ACTION: • Inhibit the monovalent cation transport enzyme coupled Na+, K+ ATPase & increased intracellular Na+ content increases intracellular Ca2+ through a Na+ - Ca2+ exchange carrier mechanism. • Increased myocardial uptake of Ca2+ augments Ca2+ release to the myofilaments during excitation invokes a positive inotropic response
MECHANISM OF ACTION: • Produce alterations in the electrical properties of both contractile cells and the specialized automatic cells, leading to increased automaticity & ectopic impulse activity • Prolong the effective refractory period of the AV node slow ventricular rate in atrial flutter & fibrillation
EFFECTS IN HEART FAILURE: • Stimulates myocardial contractility • Improves ventricular emptying • Increase cardiac output • Augments ejection fraction • Promotes diuresis • Reduces elevated diastolic pressure & volume & end –systolic volume • Reduces symptoms resulting from pulmonary vascular congestion & elevated systemic venous pressure
DIGITALIS INTOXICATION: • Serious & potentially fatal complication • Anorexia, nausea & vomiting = earliest signs of digitalis intoxication • Arrythmias: ventricular premature beats, bigeminy, ventricular & atrial tachycardia w/ variable AV block • Chronic digitalis intoxication = exacerbations of heart failure, weight loss, cachexia, neuralgias, gynecomastia, yellow vision, delirium
TREATMENT OF DIGITALIS INTOXICATION: • Tachyarrythmias: withdrawal of the drug, treatment with beta blocker or lidocaine • Hypokalemia: potassium administration by the oral route
OTHER POSITIVE INOTROPIC DRUGS USED IN HEART FAILURE: • BIPYRIDINES • Amrinone & Milrinone • Parenteral forms only • Half-life: 2-3 hrs • 10-40% excreted in the urine • MOA: increase inward calcium influx in the heart during action potential & inhibits phosphodiesterase • ADVERSE EFFECTS: nausea, vomiting, thrombocytopenia, liver enzyme changes
BETA ADRENOCEPTOR STIMULANTS: • DOBUTAMINE • Increases cardiac output • Decrease in ventricular filling pressure • Given parenterally • CONTRAINDICATIONS: pheochromocytoma, tachyarrythmias • ADVERSE EFFECTS: precipitation or exacerbation of arrythmia
DRUGS WITHOUT POSITIVE INOTROPIC EFFECTS USED IN HEART FAILURE: • DIURETICS • Reduce salt & water retention reduce ventricular preload • Reduction in venous pressure reduction of edema & its symptoms, reduction of cardiac size improved efficiency of pump function