Group 6 - CAD_Heart Failure_Congestive Heart Failure.pdf

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CORONARY
ARTERY DISEASE
Reporters;
Dungog, Daniel Mark
Menor, Nicole Dannielle
 DEFINITION
CAD is a condition characterized by
the narrowing or blockage of the
coronary arteries, usually due to
atherosclerosis (buildup of plaque
inside the artery walls). This reduces
blood flow to the heart muscle,
which can lead to chest pain
(angina), heart attacks, or other
heart complications.
TYPES OF CORONARY ARTERY
DISEASE
There are three types of coronary artery
disease:
1. Obstructive Coronary Artery
Disease: This type occurs when a
fatty substance called plaque builds
up the coronary arteries, leading to
artery narrowing. It’s the most
common type of coronary heart
disease.
TYPES OF CORONARY ARTERY
DISEASE
2. Nonobstructive Coronary Artery
Disease: There’s no plaque buildup in the
coronary arteries. Instead, narrowing in
the coronary artery is caused by other
conditions, including irregular
constrictions (coronary vasospasm),
heart tissue that compresses the
coronary arteries ( myocardial bridging)
or damage to the artery lining
(endothelial dysfunction).
 TYPES OF CORONARY ARTERY
DISEASE

3. Spontaneous Coronary Artery
Dissection (SCAD): A sudden tear in the
coronary artery wall blocks blood flow to
the heart. SCAD causes sudden
symptoms that often present as a heart
attack.
SIGNS AND SYMPTOMS
Chest pain (angina), fullness or
pressure
Fatigue
Heart palpitations, or
sensations of a racing
heartbeat
Shortness of breath (dyspnea)
Swelling in the hands or feet
PATHOPHYSIOLOGY Central Adiposiy

Increased fasting blood glucose and
productio of adipokines by adipose cells

Metabolic Syndrome
Insulin resistance
Increased fasting blood glucose
Dyslipidemia
Hypertension
Chronic inflammation

Direct atherogenic effects

ATHEROSCLEROSIS
 Lifestyle Modifications: Patients
are encouraged to adopt a heart-
healthy lifestyle, including:
MEDICAL MANAGEMENT Smoking cessation.
Regular physical activity (at
least 150 minutes of
moderate-intensity exercise
Risk Factor Control: per week).
Management of underlying Healthy diet (low in saturated
conditions such as fats, trans fats, cholesterol,
hypertension, diabetes mellitus, and salt; high in fruits,
and hyperlipidemia. vegetables, whole grains, and
lean proteins).
Weight management.
PROCEDURES
Electrocardiogram (ECG)
A baseline test to detect ischemic changes,
arrhythmias, previous myocardial infarctions,
or ongoing ischemia. It records the electrical
activity of the heart and may show ST-
segment changes, T-wave inversions, or Q
waves indicative of CAD.
Echocardiography (Stress
Echocardiogram)
A baseline test to detect ischemic changes,
arrhythmias, previous myocardial infarctions,
or ongoing ischemia. It records the electrical
activity of the heart and may show ST-
segment changes, T-wave inversions, or Q
waves indicative of CAD.
Nuclear Stress Test (Myocardial
Perfusion Imaging)
Involves injecting a small amount of radioactive
tracer (e.g., technetium-99m or thallium-201)
and taking images of the heart at rest and
after stress. The test assesses blood flow to
the heart muscle and identifies areas of
reduced perfusion, suggesting CAD.
Coronary CT Angiography (CCTA)
A non-invasive imaging technique using computed
tomography (CT) to visualize the coronary
arteries. CCTA provides detailed images of the
coronary artery anatomy and can detect the
presence of calcified and non-calcified plaques,
stenosis, and anatomical anomalies
Cardiac Magnetic Resonance
Imaging (MRI)
A non-invasive imaging method that provides
detailed information about heart muscle viability,
perfusion, and anatomy. Stress cardiac MRI can
be used to evaluate myocardial ischemia and
scarring.
Coronary Angiography (Cardiac
Catheterization)
Considered the "gold standard" for diagnosing
CAD. It involves the insertion of a catheter into
the coronary arteries (usually via the radial or
femoral artery), followed by the injection of
contrast dye to visualize the arteries under X-
ray. It provides direct visualization of coronary
artery anatomy, the location and severity of
stenosis, and other abnormalities. If significant
stenosis is found, an intervention like
percutaneous coronary intervention (PCI) with
stenting may be performed during the same
procedure.

Intravascular Ultrasound (IVUS)
An imaging modality used during coronary
angiography to provide cross-sectional images of
the coronary artery walls. It helps assess the
degree and nature of atherosclerotic plaque and
guide stent
placement.
 PHARMACOLOGICAL MANAGEMENT
The pharmacologic treatment of CAD aims to reduce symptoms, prevent complications, and
improve survival.
Antiplatelet Agents:
Aspirin (low-dose) is the cornerstone for preventing thrombosis.
P2Y12 inhibitors (e.g., clopidogrel, ticagrelor) may be used in combination with or as an
alternative to aspirin, especially in patients with stents or aspirin intolerance.
Statins: To lower LDL cholesterol and stabilize atherosclerotic plaques (e.g., atorvastatin,
rosuvastatin).
Beta-blockers: To reduce heart rate, blood pressure, and myocardial oxygen demand (e.g.,
metoprolol, carvedilol).
ACE Inhibitors/ARBs: For blood pressure control and to provide additional cardiovascular
protection, especially in patients with diabetes or left ventricular dysfunction (e.g., enalapril,
losartan).
Calcium Channel Blockers: To reduce angina and control blood pressure, particularly when
beta-blockers are contraindicated or not tolerated (e.g., amlodipine, diltiazem).
Nitrates: For angina relief by dilating coronary arteries and veins (e.g., nitroglycerin, isosorbide
mononitrate).
Anticoagulants: In certain cases, like atrial fibrillation or recent myocardial infarction (e.g.,
warfarin, direct oral anticoagulants).
 SURGICAL MANAGEMENT:
Percutaneous Coronary Intervention (PCI):
Angioplasty with stent placement is often
performed in patients with significant
coronary artery stenosis to restore blood flow.
Drug-eluting stents (DES) are preferred to
reduce the risk of restenosis.
Coronary Artery Bypass Grafting (CABG):
Indicated for patients with multi-vessel
disease, left main coronary artery disease, or
when PCI is not feasible.
Involves bypassing the blocked coronary
arteries using grafts from other vessels (e.g.,
internal mammary artery, saphenous vein).
 LABORATORY MANAGEMENT
Lipid Profile
Total Cholesterol: Elevated levels are associated with an increased risk of CAD.
Low-Density Lipoprotein (LDL) Cholesterol: Known as "bad cholesterol"; high levels contribute to plaque formation in
arteries.
High-Density Lipoprotein (HDL) Cholesterol: Known as "good cholesterol"; low levels are associated with an increased
risk of CAD.
Triglycerides: Elevated levels are an independent risk factor for CAD

Cardiac Biomarkers
Troponin (T and I): The most specific and sensitive biomarkers for myocardial injury. Elevated levels indicate
myocardial infarction (MI) or acute coronary syndrome (ACS).
Creatine Kinase-MB (CK-MB): An enzyme that increases in response to myocardial damage; less specific than
troponin but still useful.

Inflammatory Markers
High-Sensitivity C-Reactive Protein (hs-CRP): A marker of inflammation that, when elevated, indicates an increased
risk of CAD and future cardiovascular events. It is particularly useful for risk stratification in patients with
intermediate risk.
Erythrocyte Sedimentation Rate (ESR): A nonspecific marker of inflammation; it is not specific to CAD but may
provide additional information in some cases.
 LABORATORY MANAGEMENT
Electrolytes and Renal Function Tests
Serum Electrolytes (Sodium, Potassium, Calcium, Magnesium): Imbalances can predispose
patients to arrhythmias, especially in those on diuretics or with heart failure.

Complete Blood Count (CBC)
To assess for anemia, which can exacerbate myocardial ischemia by decreasing oxygen-
carrying capacity.
To evaluate the white blood cell (WBC) count, which may be elevated in response to
inflammation or infection, sometimes seen in acute coronary syndrome.
 NURSING MANAGEMENT
Assessment:
Monitor vital signs, cardiac rhythm, oxygen saturation, and symptoms of angina.
Assess for risk factors, medication adherence, and understanding of lifestyle modifications.
Patient Education:
Educate about CAD, medication regimen, lifestyle changes, and recognizing signs of complications (e.g.,
myocardial infarction).
Provide instructions on proper use of medications (e.g., sublingual nitroglycerin for angina relief).
Monitoring and Prevention:
Monitor for potential side effects of medications (e.g., bleeding with antiplatelet agents, hypotension
with beta-blockers).
Encourage smoking cessation programs, dietary consultations, and physical activity as tolerated.
Post-Intervention Care:
For PCI: Monitor for signs of bleeding or hematoma at the catheter insertion site, and educate on
activity restrictions.
For CABG: Monitor for signs of infection, ensure proper wound care, pain management, and encourage
deep breathing exercises.
Rehabilitation:
Encourage participation in cardiac rehabilitation programs for supervised exercise, risk factor
modification, and psychological support.
 HEART
FAILURE
 DEFINITION
Heart failure is a condition in which
the heart is unable to pump
sufficient blood to meet the body’s
needs. It can result from various
heart conditions that weaken or
damage the heart, including CAD,
high blood pressure, and heart
attacks.
 TYPES OF HEART FAILURE
LEFT-SIDED HEART FAILURE
Systolic Heart Failure (HFrEF - Heart Failure with Reduced
Ejection Fraction):

The heart's left ventricle cannot contract effectively,
reducing the amount of blood ejected with each beat.
Common causes: Coronary artery disease, hypertension,
or myocardial infarction.

Diastolic Heart Failure (HFpEF - Heart Failure with
Preserved Ejection Fraction):

The heart muscle is stiff and cannot relax properly, limiting
its ability to fill with blood during diastole.
Common in older adults and those with hypertension,
diabetes, or obesity.
TYPES OF HEART FAILURE
RIGHT-SIDED HEART FAILURE

Often a result of left-sided heart
failure, but it can also occur due to
pulmonary hypertension or chronic
lung disease.
Causes a backup of blood in the veins,
leading to swelling (edema) in the legs,
ankles, or abdomen.
TYPES OF HEART FAILURE
CONGESTIVE HEART FAILURE

A term used when heart failure causes
fluid buildup (congestion) in the lungs and
other body tissues. It can occur in both
left-sided and right-sided heart failure.
TYPES OF HEART FAILURE
HIGH-OUTPUT HEART FAILURE

This is a less common form of heart failure,
where the heart pumps normally but the
body's tissues demand more oxygen than
the heart can supply.
Causes can include severe anemia,
hyperthyroidism, or arteriovenous
malformations.
SIGNS & SYMPTOMS

Shortness of breath (Dyspnea)
Fatigue and weakness
Swelling (Edema)
Rapid or irregular heartbeat (Palpitations)
Persistent cough or wheezing
Increased need to urinate, especially at night (Nocturia)
Weight gain
Reduced exercise tolerance
Difficulty concentrating or confusion
Lack of appetite or nausea
 RISK FACTORS
The risk for having HF increases with advancing age.
For adults over 60 years of age, is more prevalent
among men than women.
Cigarette smoking
Patient with major cardiovascular disease and
disorders
Obesity
Poorly managed diabetes
Metabolic syndrome
PATHOPHYSIOLOGY
MEDICAL MANAGEMENT
Improvement of cardiac function with optimal
pharmacologic management
Reduction of symptoms and improvement of
functional status
Stabilization of patient condition and lowering of the
risk of hospitalization.
Delay of progression of HF and extension of life
expectancy
Promotion of lifestyle conducive to cardiac health
LABORATORY PROCEDURES
B-type Natriuretic Peptide (BNP) or N-terminal pro-BNP (NT-proBNP): these
are key biomarkers in diagnosing and managing heart failure. Elevated levels
suggest heart failure and indicate the severity of the condition.
Complete Blood Count (CBC): to check for anemia or infection, both of which
can exacerbate heart failure symptoms.
Serum Electrolytes: measures sodium, potassium, and other electrolytes.
Abnormal levels can result from heart failure treatments, particularly diuretics.
Kidney Function Tests (Blood Urea Nitrogen [BUN], Creatinine): evaluates
kidney function since heart failure and its treatment can affect kidney
performance.
Liver Function Tests: heart failure, particularly right-sided failure, can cause
liver congestion, leading to liver dysfunction.
LABORATORY PROCEDURES
Thyroid Function Tests: hyperthyroidism or hypothyroidism can worsen
heart failure, so thyroid-stimulating hormone (TSH) and other thyroid
markers are checked.
Lipid Profile: to assess cholesterol levels, as coronary artery disease is a
common cause of heart failure.
Blood Glucose or Hemoglobin A1c: to monitor for diabetes, which often
coexists with heart failure.
Arterial Blood Gas (ABG): especially in cases of acute heart failure, this
test helps assess oxygenation and carbon dioxide levels in the blood.
D-dimer Test: to rule out pulmonary embolism, which can present with
similar symptoms to heart failure.
DIAGNOSTIC PROCEDURES
Echocardiogram (Echo):
Most essential diagnostic tool for heart failure.
Assesses heart structure, function, ejection fraction, and valve problems.
Determines whether heart failure is systolic (HFrEF) or diastolic (HFpEF).

Electrocardiogram (ECG or EKG): evaluates heart rhythm, detects arrhythmias, ischemia (lack of oxygen
to the heart), or previous heart attacks that may contribute to heart failure.

Chest X-ray: helps identify the size and shape of the heart and the presence of fluid in the lungs, which is
a sign of heart failure.

Cardiac MRI (Magnetic Resonance Imaging):
Provides detailed images of the heart’s structure and function.
Useful for assessing myocarditis, amyloidosis, or scarring from previous heart attacks.

Cardiac Catheterization (Angiography):
To check for blocked coronary arteries, which can cause heart failure.
A catheter is inserted into the heart, and dye is injected to visualize the coronary arteries on X-ray.
DIAGNOSTIC PROCEDURES
Stress Test (Exercise or Pharmacologic):
Evaluates the heart's ability to respond to stress, either through exercise or medication that mimics
exercise.
Helps assess the severity of heart failure and the presence of ischemia.

Nuclear Imaging (e.g., SPECT or PET):
Shows areas of the heart with poor blood flow or damage.
Often used when other imaging techniques are inconclusive.

Right Heart Catheterization:
Measures pressures in the heart chambers and pulmonary arteries to assess the severity of heart
failure and the degree of pulmonary hypertension.

Coronary Computed Tomography Angiography (CTA):
Non-invasive imaging to visualize the coronary arteries and detect blockages that may contribute to
heart failure.
DIAGNOSTIC PROCEDURES

Sleep studies: to rule out sleep apnea, a common
condition in patients with heart failure.
Genetic testing: this may be considered for familial
cardiomyopathies.

These two tests will depend on the case of the patient, to help
determine the cause, type and severity of heart failure,
allowing for appropriate treatment plans to be made.
PHARMACOLOGICAL MANAGEMENT
Angiotensin-Converting Enzyme (ACE) Inhibitors - Lisinopril, Enalapril, Ramipril,
Captopril
to reduce mortality, improve symptoms, and slow the progression of heart
failure.

Angiotensin II Receptor Blockers (ARBs) - Losartan, Valsartan, Candesartan
often used as an alternative in patients who cannot tolerate ACE inhibitors due
to side effects like coughing.

Angiotensin Receptor-Neprilysin Inhibitors (ARNIs) - Sacubitril/Valsartan (Entresto)
more effective than ACE inhibitors or ARBs alone in reducing mortality and
hospitalizations in patients with systolic heart failure (HFrEF).

Beta-Blockers - Carvedilol, Metoprolol Succinate (extended-release), Bisoprolol
to improve symptoms, reduce hospitalizations, and improve survival.
PHARMACOLOGICAL MANAGEMENT
Diuretics
Loop Diuretics: Furosemide, Torsemide, Bumetanide
Thiazide Diuretics: Hydrochlorothiazide
Potassium-Sparing Diuretics: Spironolactone, Eplerenone
to relieve symptoms of fluid overload (edema, shortness of breath). Potassium-sparing diuretics like
Spironolactone also help reduce mortality in heart failure with reduced ejection fraction (HFrEF).

Aldosterone Antagonists (Mineralocorticoid Receptor Antagonists) - Spironolactone, Eplerenone
Mechanism: Block the effects of aldosterone, reducing fluid retention, sodium reabsorption, and
potassium loss.
Purpose: Reduce morbidity and mortality, especially in patients with HFrEF.

Hydralazine and Nitrates - Hydralazine (vasodilator) & Isosorbide dinitrate or Isosorbide mononitrate
(nitrate)
this combination is particularly beneficial in African American patients with heart failure and for those
who cannot tolerate ACE inhibitors or ARBs. It reduces hospitalizations and improves survival.

Digoxin (Cardiac Glycosides)
this is used to relieve symptoms and improve exercise capacity, especially in patients with atrial
fibrillation or symptoms that persist despite standard therapy.
PHARMACOLOGICAL MANAGEMENT
Sodium-Glucose Co-Transporter 2 (SGLT2) Inhibitors - Dapagliflozin, Empagliflozin
to reduce hospitalizations and mortality in patients with heart failure with reduced
ejection fraction (HFrEF) and are beneficial in heart failure with preserved ejection
fraction (HFpEF).

Ivabradine
to use in patients with HFrEF who remain symptomatic despite being on maximum
tolerated doses of beta-blockers or who cannot tolerate beta-blockers. Reduces
hospitalizations for heart failure.

Anticoagulants - Warfarin, Apixaban, Rivaroxaban
to use in patients with heart failure who are at risk of blood clots.

Statins (HMG-CoA Reductase Inhibitors) - Atorvastatin, Rosuvastatin
to indicate in patients with heart failure caused by coronary artery disease.
 SURGICAL MANAGEMENT
Coronary Artery Bypass Grafting (CABG): to improve blood flow to the heart by bypassing blocked coronary
arteries.
Indication for patients with heart failure caused by coronary artery disease (ischemic heart failure) or those
who have had heart attacks. CABG can improve heart function by restoring blood flow to areas of the heart
affected by blockages.
Outcome: Can reduce symptoms of heart failure, improve survival, and reduce the risk of future heart attacks.

Heart Valve Repair or Replacement: it corrects malfunctioning heart valves (e.g., mitral valve, aortic valve) that
can cause or worsen heart failure by affecting the flow of blood through the heart.
Indication for heart failure caused by valvular heart disease, such as mitral valve regurgitation or aortic
stenosis.
Techniques:
Valve repair: Reshapes or strengthens the valve to restore normal function.
Valve replacement: Replaces the damaged valve with a mechanical or biological prosthesis.
Outcome: Alleviates symptoms, prevents worsening of heart failure, and improves survival.

Implantable Cardioverter-Defibrillator (ICD) - to prevent sudden cardiac death by monitoring the heart rhythm
and delivering an electric shock to restore normal rhythm if a life-threatening arrhythmia occurs.
Indication for patients with heart failure at risk for sudden cardiac death due to ventricular arrhythmias,
particularly those with an ejection fraction of ≤35%.
Outcome: Reduces the risk of sudden death but does not directly improve heart failure symptoms.
 SURGICAL MANAGEMENT
Cardiac Resynchronization Therapy (CRT) - it uses a specialized pacemaker to coordinate the
contractions of the heart’s ventricles, improving the efficiency of the heart's pumping.
Indication for patients with heart failure and electrical conduction delays (e.g., left bundle branch block)
leading to inefficient heart function.
Outcome: Improves heart function, reduces symptoms, and lowers the risk of hospitalization and death.

Ventricular Assist Devices (VADs) - mechanical pumps that help the heart pump blood throughout the
body. These devices can be used temporarily or as long-term therapy.
Indication for severe heart failure (end-stage heart failure) where the heart is no longer able to pump
blood effectively. VADs can be used as:
Bridge to transplant: Temporarily supports patients while they wait for a heart transplant.
Destination therapy: Permanent solution for patients who are not candidates for heart transplant.
Outcome: Improves survival and quality of life in patients with severe heart failure.

Heart Transplantation - it replaces the patient’s diseased heart with a healthy donor heart.
Indication: end-stage heart failure that does not respond to medical or other surgical treatments, and
when the patient is a suitable candidate for transplantation.
Outcome: Offers the best chance for long-term survival in patients with severe, refractory heart failure.
 SURGICAL MANAGEMENT
Transcatheter Aortic Valve Replacement (TAVR) - minimally invasive procedure to replace a
narrowed aortic valve that fails to open properly (aortic stenosis), which can contribute to
heart failure.
Indication: Older or high-risk patients with heart failure due to aortic stenosis who are not
candidates for traditional open-heart surgery.
Outcome: Improves symptoms and can improve survival in high-risk patients.

Left Ventricular Reconstruction (Surgical Ventricular Restoration) - reshapes and reduces
the size of the left ventricle to improve heart function.
Indication: Patients with heart failure due to left ventricular enlargement following a heart
attack or chronic ischemic heart disease.
Outcome: Improves heart function, reduces symptoms, and can improve quality of life.

Pericardiectomy - surgical removal of part or all of the pericardium (the sac surrounding the
heart).
Indication: Heart failure caused by constrictive pericarditis, where the pericardium
becomes thickened and restricts the heart's ability to pump blood effectively.
Outcome: Relieves pressure on the heart and improves heart function.
 SURGICAL MANAGEMENT

MitraClip (Transcatheter Mitral Valve Repair) - minimally
invasive procedure to clip the leaflets of the mitral valve
together, reducing mitral regurgitation (leakage of the mitral
valve).
Indication for patients with heart failure who have significant
mitral regurgitation and are not candidates for open-heart
surgery.
Outcome: Reduces symptoms and improves quality of life in
patients with mitral regurgitation.
 LABORATORY MANAGEMENT
B-Type Natriuretic Peptide (BNP) / N-Terminal proBNP (NT-proBNP): are proteins released by
the heart in response to increased pressure and volume overload. These levels rise as heart
failure worsens and fall as it improves.

Electrolytes: can indicate kidney dysfunction, fluid overload, or complications related to
medications.

Renal Function Tests: to assess kidney function, which is closely related to heart function.
Heart failure can reduce blood flow to the kidneys, leading to renal impairment.

Complete Blood Count (CBC): assesses overall health and detects conditions like anemia,
infection, or inflammation that can worsen heart failure symptoms.

Liver Function Tests: heart failure can lead to congestion in the liver (hepatic congestion),
resulting in elevated liver enzymes. This is particularly seen in right-sided heart failure.

Thyroid Function Tests: thyroid dysfunction (both hyperthyroidism and hypothyroidism) can
contribute to heart failure or worsen existing heart failure. Screening for thyroid dysfunction
is important, particularly in new-onset heart failure.
 LABORATORY MANAGEMENT
Fasting Lipid Profile: high cholesterol levels, particularly elevated LDL,
contribute to atherosclerosis and coronary artery disease, which are major
causes of heart failure.

Blood Glucose and Hemoglobin A1c (HbA1c): diabetes is a major risk factor
for heart failure, and uncontrolled blood sugar can worsen heart function.
HbA1c provides a long-term measure of blood sugar control.

Arterial Blood Gas (ABG): assess oxygenation and acid-base balance in
patients with severe heart failure or those experiencing respiratory
distress.

Cardiac Enzymes (Troponins): used to assess for myocardial injury (heart
attack) in patients with acute heart failure exacerbations. Elevated levels
suggest myocardial ischemia or infarction.
 LABORATORY MANAGEMENT
C-Reactive Protein (CRP) and High-Sensitivity CRP (hs-CRP):
a marker of inflammation, CRP levels are often elevated in
heart failure, especially during episodes of decompensation.
High-sensitivity CRP (hs-CRP) is more specific for
cardiovascular risk assessment.

Serum Osmolality: it helps assess fluid balance and detect
abnormalities such as dilutional hyponatremia, common in
heart failure patients with excess fluid retention.

Lactate: elevated lactate levels indicate tissue hypoxia and
can be a marker of severe heart failure or shock.
 LABORATORY MANAGEMENT
Urinalysis: detects proteinuria, which can indicate kidney
dysfunction, and assesses for other abnormalities such as
infection.

Genetic Testing (depends on the case): to identify
underlying genetic mutations in cases of familial
cardiomyopathy or inherited heart conditions leading to
heart failure.
NURSING MANAGEMENT
Assessment: vital signs, lung and heart sounds, weight monitoring, and lab values.
Medication Management: administer diuretics, ACE inhibitors, beta-blockers,
and digoxin.
Oxygenation: maintain optimal oxygen levels and reduce pulmonary congestion.
Fluid Management: enforce fluid and sodium restrictions, monitor intake and
output.
Complication Monitoring: watch for signs of pulmonary edema, arrhythmias, and
thromboembolism.
Patient Education: teach about medications, diet, weight monitoring, and
symptom recognition.
Emotional and Psychosocial Support: help manage emotional distress, involve
family, and discuss advanced care planning.
 CONGESTIVE
HEART FAILURE
 DEFINITION
Congestive Heart Failure (CHF) is a chronic
condition where the heart's ability to pump
blood effectively is weakened, causing a
buildup of fluid (congestion) in the lungs,
liver, abdomen, and lower extremities. This
results in symptoms such as shortness of
breath, fatigue, swelling in the legs, and
fluid retention. CHF can be caused by
conditions that damage the heart, such as
coronary artery disease, high blood
pressure, or previous heart attacks. It can
affect either the left side, right side, or
both sides of the heart.
SIGNS & SYMPTOMS
Shortness of breath (dyspnea)
Fatigue and weakness
Swelling (edema)
Rapid or irregular heartbeat (palpitations)
Persistent cough or wheezing
Sudden weight gain
Decreased ability to exercise
Increased need to urinate at night (Nocturia)
Swollen Abdomen
Reduced appetite and Nausea
Confusion
Chest Pain
PATHOPHYSIOLOGY
 MEDICAL MANAGEMENT
The primary goals of medical management are to reduce symptoms,
improve quality of life, and prevent disease progression or complications.

Lifestyle modifications:
Diet: Low-sodium diet to reduce fluid retention, limited fluid intake, and
weight management.
Physical activity: Appropriate exercise programs to strengthen the
heart.
Smoking cessation and alcohol limitation.
Daily weight monitoring to detect fluid retention early.
Treat underlying causes: Treatment of conditions like hypertension,
coronary artery disease, diabetes, or arrhythmias, which may
contribute to heart failure.
 MEDICAL MANAGEMENT
Electrocardiogram (ECG/EKG)
- Measures the electrical activity of the heart.
- Detects arrhythmias, heart attack, or other abnormalities such as left ventricular
hypertrophy (thickening of the heart muscle).

Chest X-ray
- Provides an image of the heart and lungs.
- Helps detect:
Heart enlargement.
Fluid in the lungs (pulmonary edema).
Other lung issues that could contribute to symptoms.

Echocardiogram (ECHO)
- Key diagnostic tool for CHF.
- Uses ultrasound to create detailed images of the heart’s structure and function.
- Measures ejection fraction (EF), which indicates how well the heart is pumping. An EF
below 40% suggests heart failure with reduced ejection fraction (HFrEF).
- Assesses heart valves and detects any structural abnormalities (e.g., valve disease,
wall motion abnormalities).
 MEDICAL MANAGEMENT
Holter Monitor
- A portable device worn for 24 to 48 hours to continuously
monitor heart activity, helping to detect intermittent arrhythmias
that might not be seen in a standard ECG.

Right Heart Catheterization
- A catheter is inserted into a vein and guided to the right side of
the heart to measure pressures in the heart chambers and
pulmonary arteries.
- Helps in assessing the severity of CHF and pulmonary
hypertension
 PHARMACOLOGICAL MANAGEMENT
Medications are central to managing CHF, aiming to improve symptoms and
slow progression of the disease.

Diuretics (e.g., furosemide, spironolactone): Help reduce fluid retention by
promoting urination.

ACE inhibitors (e.g., enalapril, lisinopril): Help relax blood vessels, reduce blood
pressure, and decrease the workload on the heart.

Angiotensin II receptor blockers (ARBs, e.g., losartan, valsartan): An alternative to
ACE inhibitors to reduce blood pressure.

Beta-blockers (e.g., carvedilol, metoprolol): Slow heart rate and reduce blood
pressure, improving heart function.
 PHARMACOLOGICAL MANAGEMENT
Aldosterone antagonists (e.g., spironolactone, eplerenone): Reduce fluid
retention and help prevent worsening of heart failure.

Digoxin: Increases the strength of heart contractions and slows heart rate,
useful in some cases of heart failure with atrial fibrillation.

SGLT2 inhibitors (e.g., empagliflozin, dapagliflozin): Originally for diabetes,
these drugs help reduce hospitalizations in heart failure patients.

Vasodilators (e.g., hydralazine and nitrates): Lower blood pressure and
reduce the heart’s workload.

Ivabradine: Can reduce heart rate in patients with chronic heart failure.
 SURGICAL MANAGEMENT
Surgery may be considered when medications and lifestyle changes are insufficient,
or in cases where a structural problem contributes to heart failure.

Coronary artery bypass grafting (CABG): For patients with heart failure caused by
coronary artery disease, this surgery improves blood flow to the heart.

Heart valve repair or replacement: In cases where damaged valves contribute to
CHF.

Implantable devices:

Implantable cardioverter-defibrillator (ICD): Prevents life-threatening arrhythmias
by shocking the heart if abnormal rhythms are detected.

Cardiac resynchronization therapy (CRT): A specialized pacemaker that coordinates
heart contractions in patients with severe heart failure.
 SURGICAL MANAGEMENT

Left ventricular assist device (LVAD): A mechanical pump for
patients with severe heart failure, often as a bridge to heart
transplantation.

Heart transplantation: Considered for end-stage heart failure
when other treatments have failed.
 LABORATORY MANAGEMENT
Regular laboratory tests are important in the diagnosis and
ongoing management of CHF to monitor heart function,
electrolyte balance, and medication effects.

B-type natriuretic peptide (BNP) or N-terminal pro-BNP (NT-
proBNP): Elevated levels suggest heart failure and help gauge
the severity of the condition.

Electrolytes (e.g., sodium, potassium, chloride): Monitoring is
essential due to the effects of diuretics and heart medications,
which can cause imbalances.
 LABORATORY MANAGEMENT
Renal function tests (creatinine, blood urea nitrogen – BUN): CHF
and its treatments can affect kidney function, so monitoring is
necessary.

Liver function tests: To assess any impact of CHF on the liver,
especially in severe cases with liver congestion.

Complete blood count (CBC): To detect anemia or infection,
which can worsen heart failure.
 LABORATORY MANAGEMENT
Thyroid function tests: Hypothyroidism or hyperthyroidism can
contribute to heart failure.

Lipid profile: To assess cholesterol levels, especially in patients
with coronary artery disease.

Blood glucose and HbA1c: To monitor for diabetes or assess its
control, as diabetes can worsen heart failure.

Cardiac enzymes (e.g., troponin): Used during acute events, such
as heart attacks, to assess heart damage.
NURSING MANAGEMENT
Nurses play a crucial role in monitoring, educating, and caring for patients with
CHF.

Patient education: Teaching patients about medication adherence, dietary
restrictions (low sodium, fluid management), and daily weight monitoring.

Monitoring for signs of fluid overload: Regular assessment of weight, respiratory
status, heart sounds, and peripheral edema.

Medication management: Administering medications and monitoring for side
effects (e.g., hypotension, electrolyte imbalances).

Emotional and psychosocial support: Helping patients cope with the chronic nature
of heart failure.
NURSING MANAGEMENT

Care coordination: Collaborating with physicians, dietitians,
physical therapists, and other healthcare providers to ensure
comprehensive care.

Preventing complications: Including monitoring for skin
breakdown (due to edema), infection, and promoting mobility.

Managing devices: Care and education on pacemakers, ICDs, or
LVADs if applicable.