wvc cardiac lecture

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Blood Pressure

force of blood exerted against walls of the vascular system; SBP amount of pressure exerted by the left ventricle of the heart during contraction (systole); DBP is the amount of pressure in the arteries during the relaxation phase of the heart-diastolie

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Bp regulation Baroreceptors

– carotid sinus, aorta and left ventricle

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Bp regulation Chemoreceptors

– sensitive to rise in CO2 during hypoxia

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Bp regulation Autonomic Nervous System-

balance of parasympathetic & sympathetic in response to changes

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Bp regulation Renal System-

retention or excretion of water & sodium, renin-angiotensin system

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Sympathetic nervous system

system that is responding to stress

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BP Regulation

Autonomic nervous system; Arterial Baroreceptors; Body Fluid Volume Renin-Angiotensin-Aldosterone; Vascular Autoregulation

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The Silent Killer

May be few symptoms; Comes on gradually; Damages vessels in heart, brain, kidneys and peripheral vasculature

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Hypertension

Blood pressure of >140 systolic and >90 diastolic; Three Stages: Stage I - BP 140/90 to 159/99 Stage II - BP 160/100 to 179/109Stage III - BP > 180/110

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Types of Hypertension

Malignant Hypertension; Essential Hypertension; Secondary Hypertension; Essential Hypertension

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Primary type

Accounts for 85% to 90% of all hypertension; Risk factors: Similar to risk factors for coronary artery disease. Many risk factors can be controlled with lifestyle changes

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Secondary Hypertension

Caused by other disease processes or medications Most commonly associated with renal disease; Can also be a problem with endocrine function, brain tumors or encephalitis, estrogen, corticosteroids. Sympa….,

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Malignant Hypertension

Severe HTN: SBP >200, DBP >150 Progresses rapidly; Sx: blurred vision, headache, dyspnea, uremia; Unless interventions are begun quickly, patient may have CVA, heart failure or renal failure; This is a medical emergency

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Hypertension Intervention

Decrease risk factors: diet, exercise; Low sodium diet

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BP Medications Loop diuretics-

furosemide (lasix) PO or IV, ethacrynic acid (edecrin)

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BP Medications Thiazides-

HCTZ (Diuril, Hydrodiuril) PO

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BP Medications Potassium sparing Diuretics -

Spironolactone (aldactone) , Triamterone (dyrenium)

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BP Medications Vasodilators

relaxes smooth muscle and reduced to peripheral resistancde; nitroglycerin, minoxidil, doxanzosin, , terazosin, nitroprusside

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BP Medications Beta-Blockers

Block adrenergic impulses (blocks sympathetic system) in the heart and peripheral vessels; Lower heart rate and contractility: Propranolol, Atenolol, Nadolol & Metoprolol. (bradycardia, hypotension)

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BP Medications Calcium Channel Blockers

Interfere with the movement of calcium ions; Results in reduced vasoconstriction; Nifedipine, Verapamil, Diltiazem (side effects bradycardia, hypotension)

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BP Medications ACE- Inhibitors

Inhibits the action of the angiotensin-converting enzyme; ACE is a strong vasoconstrictor; Postural hypotension is common; Captopril, Enalapril and Lisinopril

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BP Medications Central Alpha Agonists

Prevent reuptake of norepinephrine in the central nervous system; Lower peripheral vascular resistance: Clonidine, Methyldopa

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Angiotension II receptor blockers

inhibit vasoconstriction by inhibiting the binding of angiotension II; it will protect against renal failure in patients with DM II; does not cause cough; examples: losartan (cozaar), olmesartan (Benicar), & candesartan (Atacand)

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Sympathetic Nervous system

Stress response; flight or fight; Adrenergic

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Parasympathetic

homeostatsis, rest and digest, Cholinergic

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Assessment of hypertensive crisis

severe headache; extremely high BP; dizziness, blurred vision; disoriented; -----Intervention- semi fowlers; O2; IV nitroprusside or other antihypertensive, monitor BP q 5min. Monitor for symptoms of CVA, seizures, dysrhythmias or chest pain.

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Coronary Artery Disease (Leading cause of death in the USA)

Narrowing or occlusion of the vessels feeding the heart muscle; Ischemia occurs when insufficient oxygen is available, symptom angina; Infarction occurs when heart muscle begins to die from anoxia, 30% sometimes first symptom is lethal arrhythmia

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Risk Factors for CAD

Age; Heredity; Gender; Smoking; Obesity; Sedentary; Stress; Dietary habits; Diabetes; Hypertension; Hyperlipidemia; Acute Coronary Syndromes; Stable Angina; Unstable Angina; Non-Q wave MI; Q-wave MI;

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Diagnostics & Interventions

Chest Pain (OPQRST); 12-lead EKG; Cardiac markers - CK, CK-MB, ;troponin, isoenzymes; Cardiac Catheterization; Physical assessment; Intervention- MONA (morphine, oxygen, nitroglycerine, aspirin)

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OPQRST

Onset; Provokes, Quality, Radiate, severity, time started (how long)

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Diagnostics for Cardiac Function

EKG; Chest x-ray; Electrolytes, CBC, UA, ABG, BNP; Echocardiogram; Thalium or T-phos scans; MUGA - gives ejection fraction; Pulmonary Wedge Pressure

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Stable Angina Pectoris

Temporary lack of oxygen; Causes pain with exertion; Usually associated with stable atherosclerotic plaque

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Diagnostics for Cardiac Function

EKG; Chest x-ray, Electrolytes, CBC, UA, ABG, BNP, Echocardiogram, Thalium or T-phos scans (areas of damage); MUGA - gives ejection fraction; Pulmonary Wedge Pressure

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Stable Angina Pectoris

Temporary lack of oxygen; Causes pain with exertion; Usually associated with stable atherosclerotic plaque

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Unstable Angina

One of the Acute Coronary Syndromes; Occurs with rest or minimal exertion; Increase in intensity, duration and frequency. Plaque rupture, thrombus formation

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Myocardial Infarction

Myocardial tissue is deprived of oxygen (reprefuse heart); Occlusion of blood ; flow to area of the heart; Process of infarction occurs; Time is muscle

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Blockage of the Left Anterior Descending

Perfuses the anterior wall and most of the septal wall of the left ventricle; 25% of all MIs and highest mortality rate; Left ventricular heart failure, ventricular arrhythmias; Highest incidence of lethal arrhythmias and sudden death

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Blockage of the Circumflex

Supplies blood to the lateral wall of the left ventricle and portions of the posterior wall; Posterior wall MI 2%; Lateral wall MI 3%; Sinus arrhythmias.

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Obstruction of the Right Coronary Artery

Perfuses the SA and AV nodes, the inferior and diaphragmatic portion of the left ventricle. Inferior MI 17% of all MIs, 10% mortality rate; Bradydysrhythmias, heart block, right ventricular failure, nausea

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Symptoms of Angina

Substernal chest discomfort, Can radiate to the left arm; Precipitated by exertion or stress, Relieved by NTG or rest, Lasting < 15 minutes (stable angina), Few associated symptoms

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Diagnostics for Angina

12-lead EKG; Cardiac Stress Test, Echocardiogram, Transesophageal Echocardiogram (TEE), Tissue damage releases some intracellular enzymes.

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Cardiac Catheterization

Done to determine where the obstruction is in emergent situations; Done to look at the coronary arteries to determine need for bypass

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Stents

Placed during heart cath, Mesh that opens the vessel

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Balloon Angioplasty

Balloon is placed in the area of narrowing during cardiac cath. Inflated and pushes the plaque against the vessel wall; Opens the vessel

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Risks of Cardiac Catheterization

Acute myocardial infarction; Stroke; Arterial bleeding; Thromboembolus; Lethal dysrhythmias; Death

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Manifestations of Successful Reperfusion of Heart Muscle

Cessation of chest pain, Onset of ventricular arrhythmias, Resolution of ST depression, A peak of 12 hours for cardiac markers.

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Normal Cardiac Cycle

All the components that make up one heartbeat; When working correctly, the heart rhythm is regular and beats 60-100 times per minute

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Approach to EKG Interpretation

How is the patient? Is it regular? Is it fast or slow? Are there P-waves? Is there a P-wave for every QRS? Measure the PR interval; Measure the QRS; Measure the QT interval

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Bradycardia

A pulse rate of less than 60 bpm; How is the patient tolerating the rhythm? Are there medications causing the rhythm? Is there an underlying medical condition causing the rhythm?

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Sinus Bradycardia

Heart rate less than 60 beats per minute; May or may not be symptomatic; Treat for symptoms and treat only if symptomatic; Treat underlying cause; are they on meds that would cause this. Better tolerated than tachycardia.

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Hemodynamics of Bradycardia

Myocardial oxygen demand is reduced; Coronary perfusion time is adequate because of prolonged diastole; If the rate is too slow, cardiac output and blood pressure may drop and this will decrease coronary perfusion causing symptoms

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Causes of Bradycardia

Athlete’s normal rate; Excessive vagal stimulation; Hypoxia; Inferior MI; Beta-adrenergic blockers; Calcium channel blockers; Digitalis.

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Sinus family

you must have a P wave to be in the sinus rhythm family

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Big square hear rate calculation method

count the number of big squares between r waves and divide number of squares by 300. (300 big squares per min)

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Little square heart rate calculation method

count the little squares between r waves and divide the number of little square by 1500. (1500 little squares per min)

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PR Interval

0.12-0.20 corresponds with

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QRS interval

0.06-0.12 corresponds with

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Symptoms of bradycardia

Dizziness, syncope, Weakness, Confusion, hypotension, Dyspnea, Ventricular ectopy (irritable heart with extra beats), angina,

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Digoxion

slows heart contraction and increases strength of contraction

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Interventions for bradycardia

Treat only if symptomatic; Atropine 0.5 mg – 1.0 mg IV push (anti cholergernic), end point is 0.04mg/kg, Treat hypotension with fluid replacement or vasopressors, Withhold medications that cause bradycardia; Pacemaker.

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Tachycardia

Heart rate of >100, Dominant sympathetic stimulation, Normal response to increased oxygen, demand, Compensatory response to decreased cardiac output

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Sinus Tachycardia

Rate > 100 bpm, Regular rhythm, P-wave for every QRS, QRS complex is narrow and upright in Lead II

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Hemodynamics of Tachycardia

Increased oxygen demand by the heart muscle; Decreased filling time with shorter diastole; Blood is moved through the lungs more rapidly to get oxygen out to the body quickly in stress situations; Can trigger angina pain in CAD

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Interventions for Narrow Complex Tachycardias

Assess ABCs, Oxygen, Monitor, IV Access, Vagal maneuvers, Adenosine, 12-lead EKG, Cardioversion

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Atrial Fibrillation/Flutter

Rapid firing of SA node in flutter; Disorganized firing of many atrial foci in fibrillation, Flutter is more difficult to convert, Fibrillation has more hemodynamic consequences, Treatment for both is aimed at controlling rate & re-establishing NSR

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Atrial Flutter

SA rate is too rapid, Blocked by AV node, Sx related to ventricular rate, Synchronized cardioversion is the treatment of choice, Drugs: Digoxin, Ca Channel Blockers, Ibutalide, Characteristic saw-tooth pattern, atria blocks extra R waves from firing.

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Atrial fibrillation

Disorganized impulses from multiple atrial foci, No atrial contractions, atrial kick is lost (30% of blood is lost), Irregular ventricular response, Favors formation of thrombi,

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Symptoms of Atrial Fibrillation

Usually dependent on ventricular rate, irregular pulse, Monitor shows an irregular-irregularity, No discernible P-waves, QRS complexes are narrow,

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Cause of Atria Fibrillation

(Co-morbidities with AF) AMI, Mitral stenosis, Atrial-septal defect, CHF, Cardiomyopathy, Post-surgery CABG, Hyperthyroidism, Pulmonary emboli, WPW syndrome, Congenital heart disease, Chronic obstructive pericarditis

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Atrial Fibrillation drugs

Drugs: Heparin or Enoxaprin, Dofetilide, Ca Channel blockers, Digoxin, Quinidine, Cardioversion, Ablation

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Atrial Fibrillation/Flutter

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Atrial Flutter

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Atrial fibrillation

Disorganized impulses from multiple atrial foci, No atrial contractions, atrial kick is lost (30% of blood is lost), Irregular ventricular response, Favors formation of thrombi,

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Symptoms of Atrial Fibrillation

Usually dependent on ventricular rate, irregular pulse, Monitor shows an irregular-irregularity, No discernible P-waves, QRS complexes are narrow,

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Cause of Atria Fibrillation

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Atrial Fibrillation drugs

Drugs: Heparin or Enoxaprin, Dofetilide, Ca Channel blockers, Digoxin, Quinidine, Cardioversion, Ablation

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Heart Failure

Failure to pump blood through the body (pump failure); insufficient perfusion of body tissues & organs; 75% caused HTN; Healthcare costs $24.3 billion

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Left Heart Failure

Most heart failure starts as left HF; Also called left-sided heart vent. failure or congestive heart failure (acute or chronic); May be d/t systolic or diastolic failure

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Left-sided Systolic Failure

unable to contract to eject adequate blood; Preload increases w/ decreased contractility; afterload increases w/ increased peripheral resistance; ejection fraction decreases, tissue perfusion is decreased; blood accumulates in pulmonary vessels.

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Ejection fraction

normally 60-80% in HF reduced to 40%

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LT sided HF described as:

Big boggy heart

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LVH

left ventricular hypertrophy

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Ejection fraction and CO related to left diastolic HF

in heart failure ejection fraction remains the nearly same, but the volume has been decreased. This is a result of hypertrophy.

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Left-sided Diastolic Heart Failure

Stiffening or hypertrophy of the Lt. vent.; Less compliance, unable to fill adequately; CO decreased but ejection fraction may be near normal.

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symptoms of Left Heart Failure

Decreased CO & Pulmonary Congestion; Fatigue, Oliguria during day, Confused, Dizziness, Tachycardia, Weak peripheral pulses, Pallor; Cool extremities; Angina; cough worse at night; Dyspnea; Crackles, wheezes; Frothy pink-tinged sputum; Tachypnea; S3, S4

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Cor pulmonary

hypertension in the pulmonary system causes a back up and can result in RT side HF.

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Right Heart Failure

Can be caused by Lt HF, RT vent. MI or pulmonary HTN(cor pulmonale); RT. side is unable to empty adequately; Increased vol. & pressure develop systemically; Systemic venous congestion with peripheral edema

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Symptoms of Right Sided Heart Failure

JVD; Enlarged liver & spleen; Anorexia, nausea Dependent edema; Distended abdomen; Polyuria at night; Weight gain; Increased bp from excess volume; OR decreased bp from HF. Systemic congestion

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Signs & Symptoms of Right Heart Failure

Systemic congestion; Retention of fluid; JVD, Increased abdominal girth; Edema is an unreliable sign of heart failure & Weight is the best indicator, Anorexia & nausea

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Compensatory Mechanisms in HF consume more

Oxygen

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Compensatory Mechanisms of heart failure: Sympathetic nervous system

- increases heart rate, vasoconstriction

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Compensatory Mechanisms of heart failure: Renin-angiotensin system

- reduced blood flow to the kidneys activates the RAS. Increases preload & afterload

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Compensatory Mechanisms of heart failure: Neurohumoral responses

- immune inflammatory response, BNP, ADH & endothelin

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Compensatory Mechanisms of heart failure: Myocardial hypertrophy

- thickening of the walls of the heart to provide more muscle mass. The final compensatory mechanism

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The body compensates for heart failure by:

Tachycardia: to increase output; Enlarging: to pump more blood; Developing more muscle mass (hypertrophy): to pump more strongly

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Heart failure Diagnostics

Chest x-ray; Electrolytes, CBC, UA, ABG, BNP; Echocardiogram; Thalium or T-phos scans; MUGA - gives ejection fraction; Pulmonary Wedge Pressure

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Low ejection fraction=

low cardiac output/

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CHF Meds and interventions

ACE-Inhibitors; Diuretics; Nitrates; Cardiac Glycosides; Beta Blockers; Low sodium diet; Fluid restriction, energy conservation

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Surgical Interventions in Heart Failure

Ventricular assist devices; Reshaping the heart; Heart reduction; Acorn cardiac support device; Myosplint

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Ventricular Assist Device

Surgically implanted device Does the work of the Lt. vent.; Used in cardiogenic shock, cardiomyopathy & for patients waiting for heart transplant

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Intra-aortic Balloon Pump

Balloon inserted via the femoral artery into the descending aorta; Inflates during diastole to increase coronary artery perfusion pressure; Deflates before systole to reduce cardiac workload

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Indications of worsening condition:

Rapid weight gain, over 2 lbs overnight; Decreased exercise tolerance; Cough lasting more than 3 to 5 days; Excessive waking at night to urinate;Dyspnea or angina at rest; Swelling of feet, ankles or hands

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Patient Education for CHF

Medications: name, dose & schedule; Low salt diet; indications of worsening condition; Advanced directives

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Staging of Heart Failure

Stage A: at risk/ no structural changes/ symptoms; Stage B: structural changes/ no symptoms; Stage C: structural changes & current or history of HF; Stage D: end stage disease, ongoing chronic support & treatment

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Killip Classification of Heart Failure

I – Absent crackles & S3; II – Crackles in lower half of lung fields & possible S3; III – Crackles more than halfway up the lung fields & frequent pulmonary edema; IV – Cardiogenic shock

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Valvular Heart Disease

Heart valves do not fully open or close; Usually valves of the left heart; Tricuspid valve damage usually following endocarditis; Rarely pulmonic valve; Mitral (Bicuspid) - Stenosis, Regurgitation, Prolapse; Aortic - Stenosis, Regurgitation

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Mitral Stenosis

Rheumatic fever most common cause; Valves thicken, become fibrotic, calcified; Pulmonary congestion and right heart failure

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Symptoms of Mitral Stenosis

Fatigue; Dyspnea on exertion; Paroxysmal nocturnal; dyspena; Hemoptysis; Hepatomegaly; Jugular vein distention; Pitting edema; Atrial fibrillation; Rumbling, apical diastolic murmur

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Mitral Regurgitation

Changes in the leaflets cause incomplete closure of the valve.; Backflow from the left ventricle into atrium; Symptoms begin when left ventricle fails. both atrium & vent. hypertrophy

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Symptoms of Mitral Insufficiency

Fatigue; Dyspnea on exertion; Orthopnea; Palpitations; A- fib; JVD; Pitting edema; High-pitched holosystolic murmur

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Mitral Prolapse

leaflets enlarge & prolapse into the Lt. atrium during systole; May be asymptomatic; May progress to mitral regurgitation

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Symptoms of Mitral Valve Prolapse

Atypical chest pain; Dizziness, syncope; Palpitations; Atrial tachycardia; Ventricular tachycardia; Systolic click, systolic murmur.

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Aortic Stenosis

Valve orifice narrows; Obstructs Lt. ventricular outflow during systole; Increased resistance or afterload; Hypertrophy of Lt. ventricle. won't respond to increased demand. systolic murmur

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Symptoms of Aortic Stenosis

Dyspnea on exertion; Angina; Syncope on exertion; Fatigue; Orthopnea; Paroxysmal nocturnal dyspena; Harsh, systolic crescendo-decrescendo murmur

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Aortic Regurgitation

Leaflets do not close properly during diastole; The valve ring may be dilated; Left ventricular failure. Hypertrophy will result

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Symptoms of Aortic Insufficiency

Palpitations; Dyspnea; Orthopnea; Paroxysmal; nocturnal dyspena; Fatigue; Angina; Sinus tachycardia; Blowing decrescendo diastolic murmur

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Medications and Interventions

Reduce preload or afterload with medications; Coumadin for a-fib; Rest, energy conservation; Surgical replacement or dilation Education for medications, disease process, prophylactic antibiotics

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Reparative procedures

Balloon valvuloplasty; Commissurotomy; Annuloplasty

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valve Replacement procedures

Xenograft; Synthetic; Pulmonary autograft

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orthopnea

difficulty breathing while lying down.

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pulse pressure

difference between systolic and diastolic. A narrow pulse pressure can be an indicator of CHF due to increased congestion and pressure in the heart

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aortic valve problems

congenital,men are more at risk than women, marfan's syndrome,

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Pericarditis

Inflammation of the pericardium; Acute pericarditis may be fibrous, serous, hemorrhagic, purulent or neoplastic; Postpericardiotomy syndrome (after surgery)

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Symptoms of Pericarditis

Substernal, precordial pain radiating to the left neck, shoulder or back; Pericardial friction rub; Elevated WBCs; FEVER; Changes in T wave; A-fib

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Interventions for Pericarditis

Non-steroidal anti-inflammatory drugs; Corticosteroids; hospitalization (acute); Bacterial pericarditis will need antibiotics and pericardial drainage; Complications include a-fib, cardiac tamponade, HF

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Pericardial Tamponade

Complication of pericarditis; Pericardial space fills with fluid and restricts diastolic ventricular filling; Pericardiocentesis

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Symptoms of Tamponade

JVD; Pulsus paradoxus – systolic BP> 10 mm Hg points higher on expiration than inspiration; decreased cardiac output; Muffled heart sounds; Circulatory collapse (heart stops)

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Pulsus paradoxus

systolic BP> 10 mm Hg points higher on expiration than inspirationInfective Endocarditis

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Symptoms of Infective Endocarditis

Fever w/ chills, night sweats, malaise & fatigue, new murmur, HF, systemic embolization, Petechiae, Splinter hemorrhages under finger nails, Osler’s nodes, Janeway’s lesions, Positive blood cultures

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Treatment of ineffective endocarditis

Rest, activity followed by rest; Antibiotics IV for 6 weeks; May need surgical removal of infected valve and replacement

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Rheumatic Endocarditis

after Rheumatic fever, URI w/ Group A beta-hemolytic streptococcus; Inflammation layers of heart; Forms small nodules on myocardium that turn to scar tissue; Hemorrhagic & fibrous lesions form on the leaflets of the valves, primarily the mitral & aortic

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Symptoms of Rheumatic Endocarditis

Tachycardia; Cardiomegaly; New heart murmur or change in existing murmur; Pericardial friction rub; EKG changes; Heart failure; Evidence of existing streptococcal infection

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Cardiomyopathy

Subacute or chronic enlargement of the heart muscle; Dilated cardiomyopathy, hypertrophic cardiomyopathy, restrictive cardiomyopathy; Treatment is usually palliative, death within 5 years

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Dilated Cardiomyopathy

Most common type (87%); Damage to muscle fibers; Normal ventricle thickness but dilation of atria and ventricles; Impaired systolic function

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Hypertrophic Cardiomyopathy

Asymmetrical vent. hypertrophy of Lt. vent.; Obstruction of the left ventricular outflow; Diastolic filling abnormalities; Congenital or hereditary genetic trait. Rigid ventricular walls.

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Restrictive Cardiomyopathy

Rare form of cardiomyopathy; Endocardial and/or myocardial disease; Similar symptoms to restrictive pericarditis

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Diagnostics and Interventions for cardiomyopathy

Echocardiogram; Radionuclide imaging (thalium scan); Cardiac cath; Meds; ICD (Implanted Cardiac Defibrillator);Surgical: Excision of hypertrophied septum, cardiomyoplasty, heart transplant

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Medications for cardiomyopathy

Diuretics; Vasodilators; Cardiac glycosides; Beta adrenergic blockers; Calcium antagonists (Diltiazem)

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Surgical Procedures for cardiomyopathy

Excision of hypertrophied septum; Cardiomyoplasty; Heart Transplant

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Excision of Septum

For obstructive hypertrophied cardiomyopathy; Remove a portion of the septum to create a widened outflow tract

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Diuretics treat

preload

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Cardiomyoplasty

For dilated cardiomyopathy; Use back muscle, the latissimus dorsi; Helps the ventricles pump; Enhanced cardiac output

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Heart Transplant Criteria:

Life expectancy less than 1 year; Under 65 years of age; Normal or slightly increased pulmonary vascular resistance; Absence of active infection; Stable psychosocial status; No evidence of drug/ alcohol abuse

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the heart is located...

anterior to and between the lungs and mediastinum.

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The apex is above...

the diaphragm tilted slightly left of midline

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Pericardial membranes...

*fibrous *parietal *visceral pericardium fibrous pericardium outer layer

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Parietal pericadium

serous lining the fibrous pericardium

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Visceral pericardium

aka epicaridium, on surface of heart muscle.

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walls of the heart is made up of...

myocardium

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starlings law--

the more the cells stretch, the harder they contract.

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CHAMBERS of the heart are lined with...

endocardium

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How many chambers in the heart?

4--> Lt and Rt Atrium and Lt and Rt ventricles

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Right Atrium and Ventricle...

Both Superior and Inferior Vena Cava empty into the Rt Atrium.

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Left Atrium and Ventricle...

Oxygenated blood returns back from the lungs by the 4 pulmonary veins and dump into left atrium---> mitral valve--->left ventricle--> aortic valve---> aorta---> out to body

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Coronary Vessels

*supply oxygen to myocardium itself *Rt and Lt come off the ASENDING AORTA. *Blockage of coronary artery causes ischemia or infarction.

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Cardiac Cycles

*sequence of events in one heartbeat ---> the simultaneous contraction of atria, followed a fraction of a fraction of second later by the simultaneous contraction of the ventricles.

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The mitral and tricuspid valves are anchored with...

chorde tendinae and papillary muscles---> if weak, creates mitral/tricuspid prolapse.

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Blood flows passively from the superior/inf. vena cava into...

the atria

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First Heart Sound S1

*Loudest *Ventricular Systole closing tricuspid and mitral valves.

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Second Heart Sound S2

*Closing of Aortic and Pulmonary semilunar valves.

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Valves not closing properly causes...

heart murmurs

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Mechanical function of the heart is regulated by...

electrical activity.

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The natural pacemaker is the...

sinoatrial Node (SA)node---> located in wall of Rt. Atrium

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Impulses from the SA node travel to...

Atrioventricular Node (NA) node---> down the Bundle of His----> Purkinje Fibers the bundle of his can also act as a... pacemaker

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Non invasive Cardiac Assessment...

*Pulses *BP in both arms *Edema in LE *Pain *EKG*Heart Sounds *Breath Sounds.

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Cardiac Cycle

the beginning of one heartbeat to the beginning of the next.

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At the beginning of systole, the ventricles...

contract forces AV valves to close(S1 sound) and the semilunar valves to open.

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At the end of systole/beginning of distole, the semilunar valves...

close(S2 sound), and the AV valves (tricuspid and mitral valves) open.

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Volume of blood ejected from the heart each minute...

4-7 L stroke volume

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the amount of blood ejected from the left ventricle during each systole---

this is influenced by HR, contractility, preload & afterload.

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Cardiac Output=

stroke volume x HR

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Contractility

the inherent ability of the myocardium to stretch and contract normally.

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The more stretch during diastole (rest), the...

greater systolic contraction (Starling's Law)----->the more volume in the ventricles, the greater the stretch.

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Preload

the degree of myocardial muscle fiber stretch at End of Diastole.

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Preload is determined by...

the left ventricular end-diastolic volume.

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Excessive filling of the ventricles results in...

excessive LVED (left ventricular end diastole) and decreased cardiac output.

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Afterload

the pressure the left ventricle must overcome to get blood out of the heart---> created by high BP, athrosclerosis, ect.

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The higher the pressure in the aorta, the....

more force the ventricles must use to eject the blood. Afterload

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Resistance is...

the pressure the heart must work against to get the blood out.

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How to reduce Arterial Resistance...

Angiotensin ACE Inhibitors---->works on the kidneys---->common Side Affects: *hypotension *dry cough

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When gathering Cardiac Hx from a pt, you must include...

*Health Hx *Risk Factors *Hereditary Factors *Medications

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APTM ( All Puppies Tear Meat)=

Aortic Pulmonary Tricuspid Mitral

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Murmer

when the valve either does not close or resists opening.--->causes turbulance--->this shows mitral regurgitation on top and aortic stenosis on the bottom.---> occurs with every heartbeat.

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Gallop Ventricular (S3) *sloshing in...

*decreased compliance *sign of early heart failure or ventral septal defect

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Gallop Atrial (S4) “a stiff wall”

*can get this normally as you get older *short sounding *HTN,Anemia, ventricular hypertrophy, MI, aortic or pulmonic stenosis, pulmonary emboli or loss of compliance with age.

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Diagnostics to assess a Cardiac Situation..

*12-lead EKG *Serum Markers, other blood tests like clotting times or electrolytes *Stress Test(treadmill or drugs) *Chest X Ray(tells size of Hrt) *Angiography *Cardiac Catherization

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Electrical Conduction...

The myocardium responds to electrical impulses of special cells---> electrodes pick up these electrical impulses on an EKG aka electrocardiogram.

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The sinoatrial node (SA) is the...

*primary pacemaker of the heart *located near opening of vena cava in Rt Atrium *Initiates atrial depolarization *Rate is 60-100 bpm.

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The atrioventricular node (AV) is...

*located on floor of Rt Atrium *delays conduction .05 seconds to allow ventricular filling *takes over as primary pacemaker if SA fails *Rate 40-60 bpm

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The bundle of his...

*aka superventricular *Right and Lt branches to Rt and Lt ventricles *intrinsic rate 40-60 bpm *can take over is SA fails.

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Purkinje Fibers...

*Web of fibers going deep into myocardium *cause ventricular depolarization *can beat at 20-40 bpm if all else fails. *is symptomatic

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P wave

*represents atrial depolarization * *.12-.20 mil sec is norm *smooth, rounded, upright in leads I, II,

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PR interval...

*is atrial depolarization and atrial repolarization

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QRS Complex...

*Ventricular Depolarization (closing of AV valves--> S1 sounds)---> the impulse down the Bundle of His to the Purkinje System

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T wave...

*Ventricular Repolarization (S2 sounds) *Follows same deflection as P wave

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Abnormal T wave...

*Peaked in Hyperkalemia, with a prolonged QRS and PR interval *Low and rounded in hypokalemia with ST depression and U wave

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ST segment...

*EARLY ventricular repolarization *from J point to beginning of T wave *length changes with HR

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Abnormal ST segments

*cardiac ischemia pattern. *myocardial infarction pattern

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A normal cardiac cycle is...

all the components that make up one heartbeat---> when working correctly, the heart rhythm is regular and beats 60-100 bpm.

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Risk factors that cannot be altered for cardiac issues...

*Age *Heredity * Gender

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Risk Factors that can be controlled...

*Smoking *Obesity *Sedentary *Stress *Dietary habits *Diabetes (uncontrolled) *Hypertension (uncontrolled) *Hyperlipidemia (uncontrolled)

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Smoking is a major risk factor in...

*CAD *PVD----> d/t tar, nicotine and carbon monoxide

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How to calculate pack usage...

4 cigarettes/day= 2X the risk 20 cigarettes/day= 4X the risk

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Obesity contributes to...

*diabetes *hyperlipidemia *hypertension----> it is linked to sedentary lifestyle and poor diet.

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30 minutes a day of regular excercise is recommended to promote...

caridovascular fitness

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Dietary Habits...

*too much of a good thing *Hi Fat *Hi Na+ *Big Proteins *Low Fiber

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Poor disease control can lead to cardiac issues in these...

*Diabetes *Hypertension *Hyperlipidemia

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Hypertension

poorly controlled hypertension causes increased strain on heart and blood vessels

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Hyperlipidemia

promotes the formation of plaque on the vessels and leads to atherosclerosis

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